Please checkout this presentation and paper for a quick overview of quantumnetworks
!
Conda users, please make sure to conda install pip
before running any pip installation if you want to install quantumnetworks
into your conda environment.
quantumnetworks
will soon be published on PyPI. So, to install, simply run:
pip install quantumnetworks
If you also want to download the dependencies needed to run optional tutorials, please use pip install quantumnetworks[dev]
or pip install 'quantumnetworks[dev]'
(for zsh
users).
To check if the installation was successful, run:
python3
>>> import quantumnetworks as qn
To build quantumnetworks
from source, pip install using:
git clone git@github.com:Phionx/quantumnetworks.git
cd quantumnetworks
pip install --upgrade .
If you also want to download the dependencies needed to run optional tutorials, please use pip install --upgrade .[dev]
or pip install --upgrade '.[dev]'
(for zsh
users).
If you intend to contribute to this project, please install quantumnetworks
in develop mode as follows:
git clone git@github.com:Phionx/quantumnetworks.git
cd quantumnetworks
pip install -e .[dev]
Please use pip install -e '.[dev]'
if you are a zsh
user.
We present quantumnetworks
as a numerical simulation tool with which to explore the time-dynamics of a driven, lossness, and nonlinear multi-mode quantum network using the Heisenberg-Langevin Equations. The applications of this tooling span quantum transduction, bosonic quantum error correction systems, quantum communication, and more.
The codebase is split across quantumnetworks/systems
and quantumnetworks/analysis
, which respectively provide solvers and analysis tools for several quantum network systems of interest.
Checkout issues to see what we are working on these days!
Core Devs: Shantanu Jha, Shoumik Chowdhury, Lamia Ateshian
Thanks to Professor Luca Daniel and our TA, Taqiyyah Safi, for invaluable feedback during the development of this package in the Fall 2021 iteration of Introduction to Numerical Simulation (6.336) at MIT.