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Sebastian Litzinger
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Books and Theses
- 2023
- [b1]Sebastian Litzinger:
Raising Energy Efficiency and Fault Tolerance with Parallel Streaming Application Scheduling on Multicore Systems. University of Hagen, Germany, 2023
Journal Articles
- 2024
- [j12]Carina Heßeling, Sebastian Litzinger, Jörg Keller:
Archive-based Covert Channel in Sensor Streaming Data. J. Univers. Comput. Sci. 30(8): 1048-1067 (2024) - 2023
- [j11]Sebastian Litzinger, Jörg Keller, Christoph W. Kessler:
Packing Multiple Types of Cores for Energy-Optimized Heterogeneous Hardware-Software Co-Design of Moldable Streaming Computations. IEEE Access 11: 19301-19311 (2023) - 2022
- [j10]Sebastian Litzinger, Jörg Keller:
Code generation for energy-efficient execution of dynamic streaming task graphs on parallel and heterogeneous platforms. Concurr. Comput. Pract. Exp. 34(2) (2022) - [j9]Wilhelm Rödder, Andreas Dellnitz, Sebastian Litzinger:
Analysing terrorist networks - An entropy-driven method. Expert Syst. J. Knowl. Eng. 39(10) (2022) - [j8]Jörg Keller, Sebastian Litzinger:
Systematic search space design for energy-efficient static scheduling of moldable tasks. J. Parallel Distributed Comput. 162: 44-58 (2022) - [j7]Sebastian Litzinger, Jörg Keller:
Effects of Continuous vs Discrete Frequency Scaling and Core Allocation on Energy Efficiency of Static Schedules for Moldable Tasks. Parallel Process. Lett. 32(1&2): 2150025:1-2150025:22 (2022) - [j6]Wilhelm Rödder, Andreas Dellnitz, Sebastian Litzinger:
Combining efficiency and scaling effects in activity analysis: towards an improved best practice criterion. RAIRO Oper. Res. 56(2): 795-812 (2022) - [j5]Jörg Keller, Sebastian Litzinger, Christoph W. Kessler:
Integrating Energy-Optimizing Scheduling of Moldable Streaming Tasks with Design Space Exploration for Multiple Core Types on Configurable Platforms. J. Signal Process. Syst. 94(9): 849-864 (2022) - 2021
- [j4]Christoph W. Kessler, Sebastian Litzinger, Jörg Keller:
Crown-scheduling of sets of parallelizable tasks for robustness and energy-elasticity on many-core systems with discrete dynamic voltage and frequency scaling. J. Syst. Archit. 115: 101999 (2021) - 2020
- [j3]Christoph W. Kessler, Sebastian Litzinger, Jörg Keller:
Static Scheduling of Moldable Streaming Tasks With Task Fusion for Parallel Systems With DVFS. IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. 39(11): 4166-4178 (2020) - 2019
- [j2]Wilhelm Rödder, Andreas Dellnitz, Friedhelm Kulmann, Sebastian Litzinger, Elmar Reucher:
Bipartite Structures in Social Networks: Traditional versus Entropy-Driven Analyses. Entropy 21(3): 277 (2019) - [j1]Wilhelm Rödder, Andreas Dellnitz, Ivan Ricardo Gartner, Sebastian Litzinger:
Weight Predication on Missing Links in Social Networks. A Cross-Entropy-Based Approach. FLAP 6(1): 83-104 (2019)
Conference and Workshop Papers
- 2024
- [c17]Sajad Khosravi, Christoph W. Kessler, Sebastian Litzinger, Jörg Keller:
Energy-Efficient Scheduling of Moldable Streaming Computations for the Edge-Cloud Continuum. FMEC 2024: 268-276 - [c16]Michail Boulasikis, Christoph W. Kessler, Flavius Gruian, Jörg Keller, Sebastian Litzinger:
Packet-Type Aware Scheduling of Moldable Streaming Tasks on Multicore Systems with DVFS. SAC 2024: 449-451 - 2023
- [c15]Carina Heßeling, Jörg Keller, Sebastian Litzinger:
Reversible Network Covert Channel by Payload Modulation in Streams of Decimal Sensor Values. e-Science 2023: 1-8 - [c14]Sebastian Litzinger:
Heuristic Scheduling of Streaming Applications for Energy Efficiency on Heterogeneous Multicores. HPCC/DSS/SmartCity/DependSys 2023: 225-232 - 2022
- [c13]Carina Heßeling, Jörg Keller, Sebastian Litzinger:
Network Steganography Through Redundancy in Higher-Radix Floating-Point Representations. ARES 2022: 48:1-48:7 - [c12]Carina Heßeling, Jörg Keller, Sebastian Litzinger:
Kleptography in Authentication Protocols: Why is it Still Possible? EICC 2022: 109-110 - 2021
- [c11]Jörg Keller, Sebastian Litzinger, Christoph W. Kessler:
Combining Design Space Exploration with Task Scheduling of Moldable Streaming Tasks on Reconfigurable Platforms. ARC 2021: 93-107 - [c10]Jörg Keller, Sebastian Litzinger:
Energy-Efficient Execution of Streaming Task Graphs with Parallelizable Tasks on Multicore Platforms with Core Failures. Euro-Par Workshops 2021: 322-333 - [c9]Christoph W. Kessler, Jörg Keller, Sebastian Litzinger:
Temperature-Aware Energy-Optimal Scheduling of Moldable Streaming Tasks onto 2D-Mesh-Based Many-Core CPUs with DVFS. JSSPP 2021: 168-189 - 2020
- [c8]Christoph W. Kessler, Sebastian Litzinger, Jörg Keller:
Robustness and Energy-elasticity of Crown Schedules for Sets of Parallelizable Tasks on Many-core Systems with DVFS. PDP 2020: 136-143 - [c7]Sebastian Litzinger, Jörg Keller, Christoph W. Kessler:
Maximizing Profit in Energy-Efficient Moldable Task Execution with Deadline. PDP 2020: 152-156 - [c6]Sebastian Litzinger, Jörg Keller:
Generating energy-efficient code for parallel applications specified by streaming task graphs with dynamic elements. PMAM@PPoPP 2020: 8:1-8:10 - 2019
- [c5]Christoph W. Kessler, Sebastian Litzinger, Jörg Keller:
Adaptive Crown Scheduling for Streaming Tasks on Many-Core Systems with Discrete DVFS. Euro-Par Workshops 2019: 17-29 - [c4]Sebastian Litzinger, Jörg Keller, Christoph W. Kessler:
Scheduling Moldable Parallel Streaming Tasks on Heterogeneous Platforms with Frequency Scaling. EUSIPCO 2019: 1-5 - [c3]Sebastian Litzinger, Andreas Klos, Wolfram Schiffmann:
Compute-Efficient Neural Network Architecture Optimization by a Genetic Algorithm. ICANN (2) 2019: 387-392 - [c2]Sebastian Litzinger, Oliver Körber, Jörg Keller:
Reducing Energy Consumption of HMAC Applications on Heterogeneous Platforms. HPCS 2019: 152-158 - [c1]Jörg Keller, Sebastian Litzinger, Wolfgang Spitzer:
Probabilistic Runtime Guarantees for Statically Scheduled Taskgraphs with Stochastic Task Runtimes. HPCS 2019: 575-581
Informal and Other Publications
- 2020
- [i1]Jörg Keller, Sebastian Litzinger:
Influence of Incremental Constraints on Energy Consumption and Static Scheduling Time for Moldable Tasks with Deadline. CoRR abs/2006.11062 (2020)
Coauthor Index
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