DE-CIX has announced the development of a secure and automated way of exchanging sensitive data between clouds as part of the European digital project Tellus.
The Gaia-X development project Tellus has successfully completed its implementation phase.
Led by the Internet Exchange operator DE-CIX, the consortium has developed a prototype interconnection infrastructure that provides fully automatic and virtual access to networks for sensitive, real-time applications across distributed cloud environments.
Tellus covers the entire supply chain of interconnection services and integrates offerings from various providers based on the decentralized and distributed data infrastructure of Gaia-X. This makes Tellus a key component for the comprehensive connectivity required by intelligent business models in a collaborative data economy.
In the past, implementing business-critical applications in distributed IT systems required purchasing all necessary components, services, and functions separately from different providers and manually combining them in a time-consuming and costly process – without end-to-end guarantees.
Tellus’ open-source software not only automates these processes but also ensures specific connectivity requirements.
During the final phase, the project team implemented a controller and service registry which function as central elements of a super-node architecture.
The controller coordinates and provisions service offers and orders via application programming interfaces (APIs). The service registry stores and lists all services that the controller can search through, address and combine. The search process runs via the controller into the registry and the associated graph database, which then delivers suitable solutions.
Finally, the controller commissions the interconnection infrastructure to provision network and cloud services to meet the requirements of the respective application, including guaranteed performance and Gaia-X compliance.
In the implemented proof of concept (PoC) demo, virtual networks and services can be provided via a user-friendly interface to meet the requirements of industrial applications, for example, transmitting hand movements to a robot in real time via a smart glove.
The same applies to delivering connectivity for a digital twin from IONOS in a manner required by production plants, to simulate, monitor in real-time and optimize manufacturing steps.
Equally, TRUMPF’s fully automatic laser cutting tools, where reliable and dynamic networks keep systems available and pay-per-part business models productive.
“Since Tellus registers the products of all participants in a standardized way and stores the network nodes in a structured manner in a graph database, interconnection services can be composed end-to-end via a weighted path search,” said Christoph Dietzel, Head of Product & Research, DE-CIX.
“With the successful completion of the implementation phase and the proof-of-concept demo, we have not only demonstrated the technical feasibility of our Gaia-X compliant interconnection infrastructure but have also set an important milestone for the future of secure, sovereign and collaborative data processing.”
