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ORCIDLukas Steiner
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2020 – today
- 2024
[c13]Lukas Steiner, Timo Lehnigk-Emden, Markus Fehrenz, Norbert Wehn:
A Mapping of Triangular Block Interleavers to DRAM for Optical Satellite Communication. DATE 2024: 1-2- [c12]Alexander Halbuer, Illia Ostapyshyn, Lukas Steiner, Lars Wrenger, Matthias Jung, Christian Dietrich, Daniel Lohmann:
The New Costs of Physical Memory Fragmentation. DIMES@SOSP 2024: 33-40 - 2023
- [c11]Gia Bao Thieu
, Sven Gesper, Guillermo Payá Vayá, Christoph Riggers, Oliver Renke, Till Fiedler, Jakob Marten, Tobias Stuckenberg, Holger Blume, Christian Weis, Lukas Steiner, Chirag Sudarshan, Norbert Wehn, Lennart M. Reimann, Rainer Leupers, Michael Beyer, Daniel Köhler, Alisa Jauch, Jan Micha Borrmann, Setareh Jaberansari, Tim Berthold, Meinolf Blawat, Markus Kock, Gregor Schewior, Jens Benndorf, Frederik Kautz, Hans-Martin Blüthgen, Christian Sauer:
ZuSE Ki-Avf: Application-Specific AI Processor for Intelligent Sensor Signal Processing in Autonomous Driving. DATE 2023: 1-6 - [c10]Lukas Steiner, Gustavo Delazeri, Iron Prando da Silva, Matthias Jung, Norbert Wehn:
Automatic DRAM Subsystem Configuration with irace. DroneSE/RAPIDO@HiPEAC 2023: 66-72 - [c9]Johannes Feldmann, Lukas Steiner, Derek Christ, Thomas Psota, Matthias Jung, Norbert Wehn:
A Precise Measurement Platform for LPDDR4 Memories. MEMSYS 2023: 17:1-17:8 - [i3]Lukas Steiner, Timo Lehnigk-Emden, Markus Fehrenz, Norbert Wehn:
A Mapping of Triangular Block Interleavers to DRAM for Optical Satellite Communication. CoRR abs/2312.02241 (2023) - 2022
- [j2]Lukas Steiner, Matthias Jung, Felipe S. Prado, Kirill Bykov, Norbert Wehn:
DRAMSys4.0: An Open-Source Simulation Framework for In-depth DRAM Analyses. Int. J. Parallel Program. 50(2): 217-242 (2022) - [c8]Lukas Steiner, Chirag Sudarshan, Matthias Jung, Dominik Stoffel, Norbert Wehn:
A Framework for Formal Verification of DRAM Controllers. MEMSYS 2022: 6:1-6:7 - [c7]Lukas Steiner, Matthias Jung, Michael Huonker, Norbert Wehn:
Unveiling the Real Performance of LPDDR5 Memories. MEMSYS 2022: 9:1-9:3 - [c6]Chirag Sudarshan, Mohammad Hassani Sadi, Lukas Steiner, Christian Weis, Norbert Wehn:
A Critical Assessment of DRAM-PIM Architectures - Trends, Challenges and Solutions. SAMOS 2022: 362-379 - [i2]Lukas Steiner, Chirag Sudarshan, Matthias Jung, Dominik Stoffel, Norbert Wehn:
A Framework for Formal Verification of DRAM Controllers. CoRR abs/2209.14021 (2022) - [i1]Lukas Steiner, Matthias Jung, Michael Huonker, Norbert Wehn:
Unveiling the Real Performance of LPDDR5 Memories. CoRR abs/2209.14756 (2022) - 2021
- [j1]Chirag Sudarshan, Lukas Steiner, Matthias Jung, Jan Lappas, Christian Weis, Norbert Wehn:
A Novel DRAM Architecture for Improved Bandwidth Utilization and Latency Reduction Using Dual-Page Operation. IEEE Trans. Circuits Syst. II Express Briefs 68(5): 1615-1619 (2021) - [c5]Johannes Schönböck, Werner Kurschl, Mirjam Augstein, Josef Altmann, Johannes Fraundorfer, Lisa-Maria Freller, Lukas Steiner, Cornelius Zysk, Marian Massegg, Stefan Gabauer:
From Remote-Controlled Excavators to Digitized Construction Sites. ISM 2021: 1155-1164 - [c4]Lukas Steiner, Matthias Jung, Norbert Wehn:
Exploration of DDR5 with the Open-Source Simulator DRAMSys. MBMV 2021: 1-11 - [c3]Lukas Steiner, Kira Kraft, Denis Uecker, Matthias Jung, Michael Huonker, Norbert Wehn:
An LPDDR4 Safety Model for Automotive Applications. MEMSYS 2021: 12:1-12:9 - 2020
- [c2]Johannes Feldmann, Kira Kraft, Lukas Steiner, Norbert Wehn, Matthias Jung:
Fast and Accurate DRAM Simulation: Can we Further Accelerate it? DATE 2020: 364-369 - [c1]Lukas Steiner, Matthias Jung, Felipe S. Prado, Kirill Bykov, Norbert Wehn:
DRAMSys4.0: A Fast and Cycle-Accurate SystemC/TLM-Based DRAM Simulator. SAMOS 2020: 110-126
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