Cloud Hosting

Accurate models of real-world scenarios are important for bringing theoretical and experimental research together in meaningful ways. Creating these realistic computer models, however, is a very large undertaking. Significant amounts of data, code, and expertise across a wide range of intricate areas are needed to create useful and comprehensive software.

Dr. Norbert Ltkenhaus, executive director of the Institute for Quantum Computing (IQC) and a professor in the University of Waterloos Department of Physics and Astronomy, alongside his research group, have spent the last several years developing accurate software models for research in quantum key distribution (QKD). QKD is a process for cryptography that harnesses fundamental principles of quantum mechanics to exchange secret keys, which can then be used to ensure secure communication.

Ltkenhaus and his research group recently released a modular, open-source software package on GitHub, which allows users to model realistic QKD protocols and calculate the generation rate for secure quantum keys using user-submitted variables for real-world scenarios.

Modelling and analyzing QKD setups require many different skills to come together. Our software framework allows experts in various areas like optimization theory, optical modelling and security analysis to bring their knowledge together, Ltkenhaus says. The open-source approach is designed to foster an interdisciplinary community from which all researchers will benefit.

Read more about this open-source QKD software package in the full story on Waterloo News.

See the original post here:

New open-source software is greater than the sum of its parts - University of Waterloo