Our projects
Discover some of our R&D projects
Quantum Internet Alliance
A quantum internet is a network of quantum objects that can exchange quantum information. Such a network will be delivered in a number of intermediate stages, each stage corresponding to new available quantum processing hardware: repeaters, entanglement, quantum memories, etc…
This interplay between hardware and application has been at the heart of VeriQloud’s participation into the Quantum Internet Alliance. This research project, led by the technical university of Delft, brings together all the stakeholders involved into the creation of future quanatum networks.
Visit the Quantum Internet Alliance web page.
Visit the Quantum Protocol Zoo, a wiki of quantum communication protocol.
Shaffle
Shamir Secret Sharing is at the base of Qasmat, our secure distributed storage application. Researchers have also demonstrated how to use it for Secure Multiparty Computing (SMPC), a framework that allows agents to run distributed computation without revealing their inputs.
We have put SMPC in practice in Shaffle: Shamir for federated learning. We have demonstrated how to train learning algorithms with data from various sources, while keeping the aggregating servers completely ignorant of the provided data.
Contact us for a demo of our proof-of-concept implementation.
Multiss
Qasmat is quantum-ready: in the future, it will run on quantum key distribution networks to obtain higher security. Those networks, however, are often at the metro scale since long-distance quantum communication is currently only possible using satellites.
In Multiss, we take advantage of this situation. We have shown than using remote quantum communication networks connected to each other with classical cryptography can give more security than a single quantum network.
The research leading to the MULTISS protocol was performed within the FranceQCI project.
Download the MULTISS paper.
QEnclave
Blind quantum computing (BQC) allows to delegate a computation to a quantum computer while keeping secure the data, input, output and even the computation itself. The server remains totally blind throughout the whole computation.
BQC requires the client to send quantum states to the server, making it a killer-app for the quantum internet. For shorter term developments, we have designed the QEnclave, a trusted execution environment for quantum computers.
Download the QEnclave paper.
Learn about the HSM-QCC project.