6G Zukunftslabor Bayern – 6G Future Lab Bavaria
6G Fundamental Research
|Scientists:||Manuel Simon, M.Sc., Eric Hauser, Sebastian Gallenmüller, Prof. Dr.-Ing. Georg Carle|
|Duration:||01.05.2021 – 30.04.2024|
|Funding:||Bavarian Ministry of Economic Affairs, Regional Development and Energy|
The Chair of Network Architectures and Network Services contributes specific testbed setups for reproducible wired and wireless network research for the 6G testbed for the Industry 4.0 application focus. The infrastructure for reproducible experiments includes a testbed orchestration service, flexible and programmable traffic generators, hardware-based time synchronization with PTP support, IEEE TSN support (TAS, ATS), Virtualization with SR-IOV, IOMMU and Multiqueue SmartNICs, P4 programmability with different targets, and different Wireless NIC and Shielding Boxes.
With the programmable SmartNICs and switches in the testbed, servers with different architectures (multicore and manycore), and different virtualization and measurement functionalities, different distribution of network functions between standard servers, SmartNICs and switches can be investigated. Among other things, the influences of different architectures and configurations and the effects of component failures and attacks in terms of data rates, latency, robustness and availability can be investigated.
The usage of programmable SmartNICs and network elements also makes a significant contribution to Digital Sovereignty. The programmable components and associated tools used provide a technological platform, tool chain, and implementation concepts for Digital Sovereignty in 6G. The relevant stakeholders, in particular government and public authorities or enterprises, should thus be able to make digitally sovereign decisions and act with regard to infrastructure, data, algorithms, hardware, and software. The following dimensions of digital sovereignty are strengthened: competencies, data, governance, and software and hardware technologies. Competencies relate to the capabilities of individuals, organizations, and nations. Due to the high pace of innovation in mobile, especially 6G, technical universities have a key role to play in developing the key competencies required for Digital Sovereignty and transferring them to key points of value creation via graduates as well as via collaborations with industry.
Data sovereignty is not only of utmost importance for artificial intelligence and machine learning, but also to leverage innovation potential. Data sovereignty ensures being able to include or exclude third parties from accessing data on a contractual basis and to enable or prevent the processing and analysis of data. Governance to achieve or maintain digital sovereignty includes regulatory measures at national, European and international level. Technological sovereignty with regard to hardware, software and architecture includes having a choice of alternative solutions for required functionality provided by trustworthy organizations, together with full documentation of architecture and interfaces, transparency and traceability of the functions included, which provides extensive opportunities for validating components, systems and services.
|2022-12-01||Benedikt Jaeger, Max Helm, Lars Schwegmann, Georg Carle, “Modeling TCP Performance Using Graph Neural Networks,” in Proceedings of the 1st International Workshop on Graph Neural Networking, New York, NY, USA, Dec. 2022, pp. 18–23. [Url] [Pdf] [Rawdata] [DOI] [Bib]|
|2022-12-01||Sebastian Gallenmüller, Florian Wiedner, Johannes Naab, Georg Carle, “How Low Can You Go? A Limbo Dance for Low-Latency Network Functions,” Journal of Network and Systems Management, vol. 31, no. 20, Dec. 2022. [Url] [Pdf] [DOI] [Bib]|
|2022-10-01||Max Helm, Florian Wiedner, Georg Carle, “Flow-level Tail Latency Estimation and Verification based on Extreme Value Theory,” in 18th International Conference on Network and Service Management (CNSM 2022), Thessaloniki, Greece, Oct. 2022. [Pdf] [Slides] [Bib]|
|2022-08-01||Eric Hauser, Manuel Simon, Henning Stubbe, Sebastian Gallenmüller, Georg Carle, “Slicing Networks with P4 Hardware and Software Targets,” in ACM SIGCOMM 2022 Workshop on 5G and Beyond Network Measurements, Modeling, and Use Cases (5G-MeMU ’22), Amsterdam, Netherlands, Aug. 2022. [Pdf] [DOI] [Bib]|
|2022-07-01||Sebastian Gallenmüller, Dominik Scholz, Henning Stubbe, Eric Hauser, Georg Carle, “Reproducible by Design: Network Experiments with pos,” in KuVS Fachgespräch - Würzburg Workshop on Modeling, Analysis and Simulation of Next-Generation Communication Networks 2022 (WueWoWas’22), Würzburg, Germany, Jul. 2022. [Pdf] [DOI] [Bib]|
|2022-06-01||Sebastian Gallenmüller, Eric Hauser, Georg Carle, “Prototyping Prototyping Facilities: Developing and Bootstrapping Testbeds,” in 2022 IFIP Networking WKSHPS: SLICES Scientific Instruments to support digital infrastructure science (IFIP Networking 2022 WKSHPS SLICES), Catania, Italy, Jun. 2022. [Pdf] [DOI] [Bib]|
|2022-05-01||Florian Wiedner, Max Helm, Sebastian Gallenmüller, Georg Carle, “HVNet: Hardware-Assisted Virtual Networking on a Single Physical Host,” in IEEE INFOCOM WKSHPS: Computer and Networking Experimental Research using Testbeds (CNERT 2022) (INFOCOM WKSHPS CNERT 2022), Virtual Event, May 2022. [Pdf] [DOI] [Bib]|
|2021-12-01||Manuel Simon, Henning Stubbe, Dominik Scholz, Sebastian Gallenmüller, Georg Carle, “High-Performance Match-Action Table Updates from within Programmable Software Data Planes,” in 4th P4 Workshop in Europe (EUROP4), Virtual Event, Dec. 2021. [Pdf] [Slides] [Recording] [DOI] [Bib]|
|2021-10-01||Sebastian Gallenmüller, Florian Wiedner, Johannes Naab, Georg Carle, “Ducked Tails: Trimming the Tail Latency of(f) Packet Processing Systems,” in 3rd International Workshop on High-Precision, Predictable, and Low-Latency Networking (HiPNet 2021), Izmir, Turkey, Oct. 2021. [Pdf] [Bib]|
Finished student theses
|Sebastian Faul||Virtualized Testbed Infrastructure for Practical Network Experiment||BA||Sebastian Gallenmüller, Henning Stubbe, Florian Wiedner||2022|
|Stefan Lachnit||Comparison of Hardware Timestamping Facilities for 100G Networks||MA||Sebastian Gallenmüller, Henning Stubbe, Florian Wiedner, Eric Hauser||2022|
|Matthias Michailow||Implementation and Analysis of In-Network Computation in Programmable Data Planes||MA||Manuel Simon, Henning Stubbe, Sebastian Gallenmüller||2021|
|Stefan Lachnit||Hardware Timestamping on 100G Network Cards||IDP||Sebastian Gallenmüller, Henning Stubbe, Florian Wiedner||2021|
Open and running student theses
|Jan Weßeling||Event Processing in Software Data Planes||BA||Manuel Simon||2022|
|Carlos Nechwatal||Cache Efficient Hashing-Based Data Structures in P4||BA||Manuel Simon, Sebastian Gallenmüller||2022|
|Maximilian Schwarzmaier||Hardware Discovery Protocol Support for Programmable Switches||BA||Eric Hauser, Sebastian Gallenmüller||2022|