OPICS is an S-parameter based photonic integrated circuit simulator. For more information, refer to OPICS Documentation
The easiest way to install OPICS is using pip pypi:
pip install opics
Download the OPICS source code.
git clone https://github.com/jaspreetj/opics
Install the OPICS package using pip
.
pip install -e ./opics
and upgrade using
pip install opics --upgrade
Once the package is installed, it can be imported using:
import opics
____ ____ _______________ / __ / __ / _/ ____/ ___/ / / / / /_/ // // / __ / /_/ / ____// // /___ ___/ / ____/_/ /___/____//____/ OPICS version 0.3.1
The package does not come with any component libraries pre-installed. You can select and download available libraries from the library catalogue.
library_catalogue = opics.libraries.library_catalogue
print(f"Available Libraries: {[_ for _ in library_catalogue.keys()]} ")
Available Libraries: ['ebeam', 'shuksan']
The OPICS libraries are downloaded by passing in library_name
,
library_url
, and library_path
to the
libraries.download_library
module. The module returns True
if
the library is downloaded successfully.
library = library_catalogue["ebeam"]
import os
installation_path = os.path.join(os.path.join(os.environ['USERPROFILE']), 'Desktop\\delete')
opics.libraries.download_library(
library_name=library["name"],
library_url=library["dl_link"],
library_path=installation_path,
)
# reload libraries
import importlib
importlib.reload(opics.libraries)
<module 'opics.libraries' from 'c:\users\jeida\documents\github\dev-jaspreetj\opics\opics\libraries\__init__.py'>
opics.libraries.installed_libraries
['ebeam']
opics.libraries.ebeam.components_list
['BDC', 'DC_halfring', 'GC', 'Switch', 'TunableWG', 'Waveguide', 'Y', 'ebeam_y_1550', 'ebeam_gc_te1550', 'ebeam_wg_integral_1550']
Any of the installed libraries can be removed using the
libraries.remove_library
module.
opics.libraries.remove_library("ebeam")
importlib.reload(opics.libraries)
print(opics.libraries.installed_libraries)
[]
#reinstall ebeam library
opics.libraries.download_library(
library_name=library["name"],
library_url=library["dl_link"],
library_path=installation_path,
)
importlib.reload(opics.libraries)
print(opics.libraries.installed_libraries)
Download start Download finished. ['ebeam']
Let’s take a look at the library components.
ebeam_lib = opics.libraries.ebeam
Listing library components
ebeam_lib.components_list
['BDC', 'DC_halfring', 'GC', 'Switch', 'TunableWG', 'Waveguide', 'Y', 'ebeam_y_1550', 'ebeam_gc_te1550', 'ebeam_wg_integral_1550']
Let’s take a look inside a component for more information on its parameters and layout, such as port locations.
ebeam_lib.Y?
The network module is used to define a circuit, add and connect
components. The network module takes network_id
and f
as inputs.
If no f
or frequency data points specified, the network module uses
the default value specified in opics.globals.F
.
from opics import Network
from opics.globals import C
import numpy as np
freq = np.linspace(C * 1e6 / 1.5, C * 1e6 / 1.6, 2000)
circuit = Network(network_id="circuit_name", f=freq)
Once an empty network is defined. We can start by adding components.
input_gc = circuit.add_component(ebeam_lib.GC)
y = circuit.add_component(ebeam_lib.Y)
wg2 = circuit.add_component(ebeam_lib.Waveguide, params=dict(length=0e-6))
wg1 = circuit.add_component(ebeam_lib.Waveguide, params={"length":15e-6})
y2 = circuit.add_component(ebeam_lib.Y)
output_gc = circuit.add_component(ebeam_lib.GC)
We can also define custom port names for components for easy reference.
input_gc.set_port_reference(0, "input_port")
output_gc.set_port_reference(0, "output_port")
Connect components using the Network.connect
module.
circuit.connect(input_gc, 1, y, 0)
circuit.connect(y, 1, wg1, 0)
circuit.connect(y, 2, wg2, 0)
circuit.connect(y2, 0, output_gc, 1)
circuit.connect(wg1, 1, y2, 1)
circuit.connect(wg2, 1, y2, 2)
Simulate the network/circuit
circuit.simulate_network()
<opics.components.componentModel at 0x2334a11daf0>
Plot the simulated response
circuit.sim_result.plot_sparameters(show_freq=False)
An interactive plot can be spawned by enabling the interactive option.
circuit.sim_result.plot_sparameters(show_freq=False, interactive=True)
OPICS
is written by Jaspreet Jhoja. You can cite the package as
@misc{jhoja-2020-opics, author = {Jaspreet Jhoja}, title = {OPICS: An Open Photonic Integrated Circuit Solver}, year = {2020}, publisher = {GitHub}, journal = {GitHub repository}, howpublished = {\url{https://github.com/SiEPIC-Kits/OPICS}} }
Copyright © 2022, Jaspreet Jhoja, MIT License