ACE-SUPPRA
Security, Usability, Performance, and Privacy Research on Algorand
| Scientists: | Filip Rezabek, Richard von Seck, Prof. Dr.-Ing. Georg Carle |
| Duration: | 01.08.2022 – 31.07.2027 |
| Funding: | Algorand Foundation |
About Algorand
The [Algorand protocol][1] is a carbon-zero Layer 1 Blockchain technology, founded by the Turing Award winner and MIT professor Silvio Micali. Based on pure Proof-of-Stake (POS) consensus, Algorand currently supports 1000 transactions per second (TPS) with a 4.5 second settlement finality and offers a powerful smart contract platform based on the Algorand Virtual Machine (AVM).
About ACE
The [Algorand Centers of Excellence (ACE) program][2], funded by the Algorand Foundation, is dedicated to support research, education, development, and social impact of projects in the Blockchain and distributed ledger space. In total, the Algorand Foundation selected 10 centers of excellence globally out of 77 proposals with over 550 participants, representing 46 countries. The projects were evaluated by 27 international experts with various backgrounds.
About TUM-ACE-SUPPRA
The TUM project ACE-SUPPRA (Security, Usability, Performance, and Privacy Research in Algorand) was selected for a five year long research initiative grant with educational and outreach elements. The Principal Investigator (PI) of ACE-SUPPRA is Prof. Georg Carle, head of the Chair of Network Architectures and Services (NET). ACE-SUPPRA is an interdisciplinary initiative, involving teams of different TUM departments with the following Co-PIs:
- Prof. Andreas Herkersdorf – Chair of Integrated Systems (LIS)
- Prof. Florian Matthes – Chair of Software Engineering for Business Information Systems (SEBIS)
- Prof. Alexander Pretschner – Chair of Software and Systems Engineering (SSE)
- Prof. Isabell Welpe – Chair of Strategy and Organization (SAO)
Research of the involved groups, building on their key competencies, addresses technical, economic, and social aspects of blockchain technologies in relation to the Algorand protocol. The chair of Prof. Carle targets assessment of the Algorand infrastructure, aiming for the improvement of its performance, and research of more secure and privacy-preserving techniques for the Algorand users. Prof. Herkersdorf and his team address performance enhancements using SmartNICs to which certain operations can be offloaded. Smart contract capabilities are a key factor to blockchain adoption and usability, which will be investigated by the research group of Prof. Pretschner, aiming to improve robustness, quality, and security. Focusing on secure usability, Prof. Matthes aims to offer solutions to minimize risks and overhead caused by smart contract development. The team of Prof. Welpe addresses aspects of tokenomics and governance of Algorand. ACE-SUPPRA outreach activities include the organization of workshops and hackathons.
Additional Information
- [1] Protocol Overview
- [2] Other ACEs
- [3] Homepage
Related publications
| 2024-03-01 | Filip Rezabek*, Marcin Bosk*, Leander Seidlitz, Jörg Ott, Georg Carle, “Context Matters: Lessons Learned from Emulated and Simulated TSN Environments,” in 3rd International Workshop on Negative Results in Pervasive Computing (PerFail 2024), Biarritz, France, Mar. 2024. [Pdf] [Bib] |
| 2024-01-01 | Burak Öz, Jonas Gebele, Parshant Singh, Filip Rezabek, Florian Matthes, “Playing the MEV Game on a First-Come-First-Served Blockchain,” Jan. 2024. [Preprint] [Bib] |
| 2023-11-01 | Burak Öz, Filip Rezabek, Jonas Gebele, Felix Hoops, Florian Matthes, “A Study of MEV Extraction Techniques on a First-Come-First-Served Blockchain,” Nov. 2023. [Preprint] [Bib] |
| 2023-06-01 | Marcin Bosk*, Filip Rezabek*, Johannes Abel, Kilian Holzinger, Max Helm, Georg Carle, Jörg Ott, “Simulation and Practice: A Hybrid Experimentation Platform for TSN,” in 22nd International Federation for Information Processing (IFIP) Networking Conference, Barcelona, Spain, Jun. 2023. [Bib] |
| 2023-03-01 | Filip Rezabek*, Marcin Bosk*, Georg Carle, Jörg Ott, “TSN Experiments Using COTS Hardware and Open-Source Solutions: Lessons Learned,” in 2nd International Workshop on Negative Results in Pervasive Computing (PerFail 2023), Atlanta, USA, Mar. 2023. Best Paper Award [Pdf] [Slides] [Bib] |
| 2022-12-01 | Richard von Seck, Filip Rezabek, Benedikt Jaeger, Sebastian Gallenmüller, Georg Carle, “BFT-Blocks: The Case for Analyzing Networking in Byzantine Fault Tolerant Consensus,” in 2022 IEEE 21st International Symposium on Network Computing and Applications (NCA), Dec. 2022, vol. 21, pp. 35–44. [Preprint] [DOI] [Bib] |
| 2022-11-01 | Filip Rezabek, Max Helm, Tizian Leonhardt, Georg Carle, “PTP Security Measures and their Impact on Synchronization Accuracy,” in 18th International Conference on Network and Service Management (CNSM 2022), Thessaloniki, Greece, Nov. 2022. [Pdf] [Bib] |
Finished student theses
| Author | Title | Type | Advisors | Year | Links |
| Simon Borowski | Macro View on Smart Contracts and their Processing Overhead | IDP | Filip Rezabek, Kilian Glas, Richard von Seck | 2023 | |
| Ali Sabbagh | Assessment of Maximal Extractable Value (MEV) Mitigation Techniques | MA | Filip Rezabek, Burak Öz | 2023 | |
| Daniel Gockel | Evaluation of State Channel Approaches on Smart Contract Platforms | BA | Kilian Glas, Filip Rezabek | 2023 | |
| Marc Sinner | Design and Evaluation of a Decentralized Blockchain Ticketing System | MA | Filip Rezabek | 2023 | |
| Phillip Kemper | Assessment of ZK-EVM-based Rollups for Blockchain Scalability | MA | Kilian Glas, Filip Rezabek | 2023 | |
| Achraf Aroua | Assessment of Ethereum after the Merge | MA | Filip Rezabek | 2023 | |
| Tizian Leonhardt | Private Computing on Permissionless Blockchains | IDP | Filip Rezabek | 2023 | |
| Gopi Mehta | Exploring Reputation Systems for Permissionless Blockchains | MA | Filip Rezabek | 2023 | |
| Leonardo Fraquelli | Assessment of Scalable Blockchain Solutions | MA | Filip Rezabek | 2023 | |
| Reshma Vasudevan | Threshold Cryptography Optimization using Time-Sensitive Networking | MA | Filip Rezabek | 2023 | |
| Nina Schwanke | Modeling Network Characteristics of Blockchain Protocols | MA | Filip Rezabek, Richard von Seck, Kilian Glas | 2023 | |
| Simon Borowski | Structure and Performance of Smart Contracts in Different Ecosystems | MA | Filip Rezabek, Kilian Glas, Richard von Seck | 2022 | |
| Shouvik Ghosh Parshant Singh | Extension of the EnGINE Framework and Profiling Blockchains to Identify and Optimize Bottlenecks | IDP | Filip Rezabek, Richard von Seck | 2022 | |
| Andreas Kramer | Performance Evaluation of Privacy Enhancing Infrastructure | MA | Filip Rezabek, Richard von Seck | 2022 | |
| Andrei-Cosmin Aprodu | Providing Network Layer Privacy to Blockchain Protocols | IDP | Filip Rezabek, Richard von Seck | 2022 | |
| Christoph Schnabl | Private Group Management for Mix Networks | BA | Daniel Hugenroth, Filip Rezabek, Richard von Seck | 2022 | |
| Johannes Pfannschmidt | Feasibility Study of Threshold BLS Signature Scheme for Tamper-Resistance Signature Service | BA | Filip Rezabek, Richard von Seck, Dr. Holger Kinkelin | 2022 |
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| Timo Michael Saunus | Software-based Security for Intellectual Property and Collaboration | MA | Richard von Seck, Filip Rezabek, Holger Kinkelin | 2022 | |
| Justus von der Beek | TEE Support for Digital Data Marketplaces | IDP | Filip Rezabek, Holger Kinkelin, Richard von Seck | 2022 |