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ORCIDBjörn B. Brandenburg
Björn Bernhard Brandenburg
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- affiliation: Max Planck Institute for Software Systems, Kaiserslautern, Germany
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2020 – today
- 2023
[c70]Cédric Courtaud, Björn B. Brandenburg:
G(IP)2 C: Temporally Isolated Multiprocessor Real-Time IPC with Server-to-Server Invocations. RTAS 2023: 276-288- [c69]Sergey Bozhko, Filip Markovic, Georg von der Brüggen, Björn B. Brandenburg:
What Really is pWCET? A Rigorous Axiomatic Proposal. RTSS 2023: 13-26 - [c68]Filip Markovic, Pierre Roux, Sergey Bozhko, Alessandro V. Papadopoulos, Björn B. Brandenburg:
CTA: A Correlation-Tolerant Analysis of the Deadline-Failure Probability of Dependent Tasks. RTSS 2023: 317-330 - 2022
- [j12]Marco Maida, Sergey Bozhko, Björn B. Brandenburg:
Foundational Response-Time Analysis as Explainable Evidence of Timeliness (Artifact). Dagstuhl Artifacts Ser. 8(1): 07:1-07:2 (2022) - [c67]Marco Maida, Sergey Bozhko, Björn B. Brandenburg:
Foundational Response-Time Analysis as Explainable Evidence of Timeliness. ECRTS 2022: 19:1-19:25 - [c66]Marco Perronet, Marco Maida, Cédric Courtaud, Björn B. Brandenburg:
Work in Progress: Automatic Response-Time Analysis for Arbitrary Real-Time Linux Workloads. RTAS 2022: 317-320 - [c65]Kimaya Bedarkar, Mariam Vardishvili, Sergey Bozhko, Marco Maida, Björn B. Brandenburg:
From Intuition to Coq: A Case Study in Verified Response-Time Analysis 1 of FIFO Scheduling. RTSS 2022: 197-210 - [c64]Arpan Gujarati, Ningfeng Yang
, Björn B. Brandenburg:
In-ConcReTeS: Interactive Consistency meets Distributed Real-Time Systems, Again! RTSS 2022: 211-224 - [c63]Aastha Mehta, Mohamed Alzayat, Roberta De Viti, Björn B. Brandenburg, Peter Druschel, Deepak Garg:
Pacer: Comprehensive Network Side-Channel Mitigation in the Cloud. USENIX Security Symposium 2022: 2819-2838 - [p1]Björn B. Brandenburg:
Multiprocessor Real-Time Locking Protocols. Handbook of Real-Time Computing 2022: 347-446 - 2021
- [c62]Tobias Blaß, Arne Hamann, Ralph Lange, Dirk Ziegenbein, Björn B. Brandenburg:
Automatic Latency Management for ROS 2: Benefits, Challenges, and Open Problems. RTAS 2021: 264-277 - [c61]Tobias Blaß, Daniel Casini, Sergey Bozhko, Björn B. Brandenburg:
A ROS 2 Response-Time Analysis Exploiting Starvation Freedom and Execution-Time Variance. RTSS 2021: 41-53 - [c60]Georg von der Brüggen, Nico Piatkowski, Kuan-Hsun Chen, Jian-Jia Chen, Katharina Morik, Björn B. Brandenburg:
Efficiently Approximating the Worst-Case Deadline Failure Probability Under EDF. RTSS 2021: 214-226 - [c59]Sergey Bozhko, Georg von der Brüggen, Björn B. Brandenburg:
Monte Carlo Response-Time Analysis. RTSS 2021: 342-355 - [c58]Marco Maida, Sergey Bozhko, Björn B. Brandenburg:
Work-in-Progress: Automatically Generated Response-Time Proofs as Evidence of Timeliness. RTSS 2021: 512-515 - [e3]Björn B. Brandenburg:
33rd Euromicro Conference on Real-Time Systems, ECRTS 2021, July 5-9, 2021, Virtual Conference. LIPIcs 196, Schloss Dagstuhl - Leibniz-Zentrum für Informatik 2021, ISBN 978-3-95977-192-4 [contents] - 2020
- [j11]Sergey Bozhko, Björn B. Brandenburg:
Abstract Response-Time Analysis: A Formal Foundation for the Busy-Window Principle (Artifact). Dagstuhl Artifacts Ser. 6(1): 03:1-03:2 (2020) - [c57]James Robb, Björn B. Brandenburg:
Nested, but Separate: Isolating Unrelated Critical Sections in Real-Time Nested Locking. ECRTS 2020: 6:1-6:23 - [c56]Sergey Bozhko, Björn B. Brandenburg:
Abstract Response-Time Analysis: A Formal Foundation for the Busy-Window Principle. ECRTS 2020: 22:1-22:24 - [c55]Arpan Gujarati, Sergey Bozhko, Björn B. Brandenburg:
Real-Time Replica Consistency over Ethernet with Reliability Bounds. RTAS 2020: 376-389 - [c54]Suhail Nogd, Geoffrey Nelissen, Mitra Nasri, Björn B. Brandenburg:
Response-Time Analysis for Non-Preemptive Global Scheduling with FIFO Spin Locks. RTSS 2020: 115-127
2010 – 2019
- 2019
- [j10]Daniel Casini, Tobias Blaß, Ingo Lütkebohle, Björn B. Brandenburg:
Response-Time Analysis of ROS 2 Processing Chains Under Reservation-Based Scheduling (Artifact). Dagstuhl Artifacts Ser. 5(1): 05:1-05:2 (2019) - [j9]Arpan Gujarati, Felipe Cerqueira, Björn B. Brandenburg, Geoffrey Nelissen:
Correspondence article: a correction of the reduction-based schedulability analysis for APA scheduling. Real Time Syst. 55(1): 136-143 (2019) - [j8]Jian-Jia Chen, Geoffrey Nelissen, Wen-Hung Huang, Maolin Yang, Björn B. Brandenburg, Konstantinos Bletsas, Cong Liu, Pascal Richard, Frédéric Ridouard, Neil C. Audsley, Raj Rajkumar, Dionisio de Niz, Georg von der Brüggen:
Many suspensions, many problems: a review of self-suspending tasks in real-time systems. Real Time Syst. 55(1): 144-207 (2019) - [c53]Beyazit Yalcinkaya, Mitra Nasri, Björn B. Brandenburg:
An Exact Schedulability Test for Non-Preemptive Self-Suspending Real-Time Tasks. DATE 2019: 1228-1233 - [c52]Daniel Casini, Tobias Blaß, Ingo Lütkebohle, Björn B. Brandenburg:
Response-Time Analysis of ROS 2 Processing Chains Under Reservation-Based Scheduling. ECRTS 2019: 6:1-6:23 - [c51]Arpan Gujarati, Mitra Nasri, Rupak Majumdar, Björn B. Brandenburg:
From Iteration to System Failure: Characterizing the FITness of Periodic Weakly-Hard Systems. ECRTS 2019: 9:1-9:23 - [c50]Mitra Nasri, Geoffrey Nelissen, Björn B. Brandenburg:
Response-Time Analysis of Limited-Preemptive Parallel DAG Tasks Under Global Scheduling. ECRTS 2019: 21:1-21:23 - [c49]Arpan Gujarati, Malte Appel, Björn B. Brandenburg:
Achal: building highly reliable networked control systems. EMSOFT Companion 2019: 9 - [c48]Saranya Natarajan, Mitra Nasri, David Broman, Björn B. Brandenburg, Geoffrey Nelissen:
From Code to Weakly Hard Constraints: A Pragmatic End-to-End Toolchain for Timed C. RTSS 2019: 167-180 - [e2]Björn B. Brandenburg:
25th IEEE Real-Time and Embedded Technology and Applications Symposium, RTAS 2019, Montreal, QC, Canada, April 16-18, 2019. IEEE 2019, ISBN 978-1-7281-0678-6 [contents] - [i3]Aastha Mehta, Mohamed Alzayat, Roberta De Viti, Björn B. Brandenburg, Peter Druschel, Deepak Garg:
Pacer: Network Side-Channel Mitigation in the Cloud. CoRR abs/1908.11568 (2019) - [i2]Björn B. Brandenburg:
Multiprocessor Real-Time Locking Protocols: A Systematic Review. CoRR abs/1909.09600 (2019) - 2018
- [c47]Mitra Nasri, Geoffrey Nelissen, Björn B. Brandenburg:
A Response-Time Analysis for Non-Preemptive Job Sets under Global Scheduling. ECRTS 2018: 9:1-9:23 - [c46]Arpan Gujarati, Mitra Nasri, Björn B. Brandenburg:
Quantifying the Resiliency of Fail-Operational Real-Time Networked Control Systems. ECRTS 2018: 16:1-16:24 - [c45]Felipe Cerqueira, Geoffrey Nelissen, Björn B. Brandenburg:
On Strong and Weak Sustainability, with an Application to Self-Suspending Real-Time Tasks. ECRTS 2018: 26:1-26:21 - [c44]Manohar Vanga, Arpan Gujarati, Björn B. Brandenburg:
Tableau: a high-throughput and predictable VM scheduler for high-density workloads. EuroSys 2018: 28:1-28:16 - [c43]Yuxin Ren, Guyue Liu, Gabriel Parmer, Björn B. Brandenburg:
Scalable Memory Reclamation for Multi-Core, Real-Time Systems. RTAS 2018: 152-163 - [c42]Mitra Nasri, Robert I. Davis, Björn B. Brandenburg:
FIFO with Offsets: High Schedulability with Low Overheads. RTAS 2018: 271-282 - [e1]Björn B. Brandenburg, Sriram Sankaranarayanan:
Proceedings of the International Conference on Embedded Software, EMSOFT 2018, Torino, Italy, September 30 - October 5, 2018. IEEE 2018, ISBN 978-1-5386-5560-3 [contents] - 2017
- [j7]Jian-Jia Chen, Björn B. Brandenburg:
A Note on the Period Enforcer Algorithm for Self-Suspending Tasks. Leibniz Trans. Embed. Syst. 4(1): 01:1-01:22 (2017) - [c41]Arpan Gujarati, Sameh Elnikety, Yuxiong He, Kathryn S. McKinley, Björn B. Brandenburg:
Swayam: distributed autoscaling to meet SLAs of machine learning inference services with resource efficiency. Middleware 2017: 109-120 - [c40]Pratyush Patel, Manohar Vanga, Björn B. Brandenburg:
TimerShield: Protecting High-Priority Tasks from Low-Priority Timer Interference (Outstanding Paper). RTAS 2017: 3-12 - [c39]Mitra Nasri, Björn B. Brandenburg:
Offline Equivalence: A Non-preemptive Scheduling Technique for Resource-Constrained Embedded Real-Time Systems (Outstanding Paper). RTAS 2017: 75-86 - [c38]Manohar Vanga, Andrea Bastoni, Henrik Theiling, Björn B. Brandenburg:
Supporting low-latency, low-criticality tasks in a certified mixed-criticality OS. RTNS 2017: 227-236 - [c37]Mitra Nasri, Björn B. Brandenburg:
An Exact and Sustainable Analysis of Non-preemptive Scheduling. RTSS 2017: 12-23 - 2016
- [c36]Alessandro Biondi, Björn B. Brandenburg:
Lightweight Real-Time Synchronization under P-EDF on Symmetric and Asymmetric Multiprocessors. ECRTS 2016: 39-49 - [c35]Vincenzo Bonifaci, Björn B. Brandenburg, Gianlorenzo D'Angelo, Alberto Marchetti-Spaccamela:
Multiprocessor Real-Time Scheduling with Hierarchical Processor Affinities. ECRTS 2016: 237-247 - [c34]Felipe Cerqueira, Felix Stutz, Björn B. Brandenburg:
PROSA: A Case for Readable Mechanized Schedulability Analysis. ECRTS 2016: 273-284 - [c33]Björn B. Brandenburg, Mahircan Gul:
Global Scheduling Not Required: Simple, Near-Optimal Multiprocessor Real-Time Scheduling with Semi-Partitioned Reservations. RTSS 2016: 99-110 - [c32]Alessandro Biondi, Björn B. Brandenburg, Alexander Wieder:
A Blocking Bound for Nested FIFO Spin Locks. RTSS 2016: 291-302 - [i1]Jian-Jia Chen, Björn B. Brandenburg:
A Note on the Period Enforcer Algorithm for Self-Suspending Tasks. CoRR abs/1606.04386 (2016) - 2015
- [j6]Arpan Gujarati, Felipe Cerqueira, Björn B. Brandenburg:
Multiprocessor real-time scheduling with arbitrary processor affinities: from practice to theory. Real Time Syst. 51(4): 440-483 (2015) - [c31]Pramod Bhatotia, Pedro Fonseca, Umut A. Acar, Björn B. Brandenburg, Rodrigo Rodrigues:
iThreads: A Threading Library for Parallel Incremental Computation. ASPLOS 2015: 645-659 - [c30]Maolin Yang, Alexander Wieder, Björn B. Brandenburg:
Global Real-Time Semaphore Protocols: A Survey, Unified Analysis, and Comparison. RTSS 2015: 1-12 - [c29]Arpan Gujarati, Björn B. Brandenburg:
When Is CAN the Weakest Link? A Bound on Failures-in-Time in CAN-Based Real-Time Systems. RTSS 2015: 249-260 - 2014
- [j5]Björn Bernhard Brandenburg:
Blocking Optimality in Distributed Real-Time Locking Protocols. Leibniz Trans. Embed. Syst. 1(2): 01:1-01:22 (2014) - [c28]Björn B. Brandenburg:
The FMLP+: An Asymptotically Optimal Real-Time Locking Protocol for Suspension-Aware Analysis. ECRTS 2014: 61-71 - [c27]Pedro Fonseca, Rodrigo Rodrigues, Björn B. Brandenburg:
SKI: Exposing Kernel Concurrency Bugs through Systematic Schedule Exploration. OSDI 2014: 415-431 - [c26]Felipe Cerqueira, Manohar Vanga, Björn B. Brandenburg:
Scaling global scheduling with message passing. RTAS 2014: 263-274 - [c25]Roy Spliet, Manohar Vanga, Björn B. Brandenburg, Sven Dziadek:
Fast on Average, Predictable in the Worst Case: Exploring Real-Time Futexes in LITMUSRT. RTSS 2014: 96-105 - [c24]Alexander Wieder, Björn B. Brandenburg:
On the Complexity of Worst-Case Blocking Analysis of Nested Critical Sections. RTSS 2014: 106-117 - [c23]Björn B. Brandenburg:
A Synchronous IPC Protocol for Predictable Access to Shared Resources in Mixed-Criticality Systems. RTSS 2014: 196-206 - [c22]Felipe Cerqueira, Arpan Gujarati, Björn B. Brandenburg:
Linux's Processor Affinity API, Refined: Shifting Real-Time Tasks Towards Higher Schedulability. RTSS 2014: 249-259 - 2013
- [j4]Björn B. Brandenburg, James H. Anderson:
The OMLP family of optimal multiprocessor real-time locking protocols. Des. Autom. Embed. Syst. 17(2): 277-342 (2013) - [j3]Björn B. Brandenburg:
An asymptotically optimal real-time locking protocol for clustered scheduling under suspension-aware analysis. SIGBED Rev. 10(2): 19 (2013) - [c21]Arpan Gujarati, Felipe Cerqueira, Björn B. Brandenburg:
Outstanding Paper Award: Schedulability Analysis of the Linux Push and Pull Scheduler with Arbitrary Processor Affinities. ECRTS 2013: 69-79 - [c20]Björn B. Brandenburg:
A Fully Preemptive Multiprocessor Semaphore Protocol for Latency-Sensitive Real-Time Applications. ECRTS 2013: 292-302 - [c19]Björn B. Brandenburg:
Improved analysis and evaluation of real-time semaphore protocols for P-FP scheduling. IEEE Real-Time and Embedded Technology and Applications Symposium 2013: 141-152 - [c18]Alexander Wieder, Björn B. Brandenburg:
On Spin Locks in AUTOSAR: Blocking Analysis of FIFO, Unordered, and Priority-Ordered Spin Locks. RTSS 2013: 45-56 - [c17]Sanjoy K. Baruah, Björn B. Brandenburg:
Multiprocessor Feasibility Analysis of Recurrent Task Systems with Specified Processor Affinities. RTSS 2013: 160-169 - [c16]Alexander Wieder, Björn B. Brandenburg:
Efficient partitioning of sporadic real-time tasks with shared resources and spin locks. SIES 2013: 49-58 - 2011
- [b1]Björn B. Brandenburg:
Scheduling and locking in multiprocessor real-time operating systems. University of North Carolina, Chapel Hill, USA, 2011 - [j2]Björn B. Brandenburg, Hennadiy Leontyev, James H. Anderson:
An overview of interrupt accounting techniques for multiprocessor real-time systems. J. Syst. Archit. 57(6): 638-654 (2011) - [c15]Andrea Bastoni, Björn B. Brandenburg, James H. Anderson:
Is Semi-Partitioned Scheduling Practical? ECRTS 2011: 125-135 - [c14]Björn B. Brandenburg, James H. Anderson:
Real-time resource-sharing under clustered scheduling: mutex, reader-writer, and k-exclusion locks. EMSOFT 2011: 69-78 - [c13]Christopher J. Kenna, Jonathan L. Herman, Björn B. Brandenburg, Alex F. Mills, James H. Anderson:
Soft Real-Time on Multiprocessors: Are Analysis-Based Schedulers Really Worth It? RTSS 2011: 93-103 - 2010
- [j1]Björn B. Brandenburg, James H. Anderson:
Spin-based reader-writer synchronization for multiprocessor real-time systems. Real Time Syst. 46(1): 25-87 (2010) - [c12]Andrea Bastoni, Björn B. Brandenburg, James H. Anderson:
An Empirical Comparison of Global, Partitioned, and Clustered Multiprocessor EDF Schedulers. RTSS 2010: 14-24 - [c11]Björn B. Brandenburg, James H. Anderson:
Optimality Results for Multiprocessor Real-Time Locking. RTSS 2010: 49-60
2000 – 2009
- 2009
- [c10]Björn B. Brandenburg, James H. Anderson:
Reader-Writer Synchronization for Shared-Memory Multiprocessor Real-Time Systems. ECRTS 2009: 184-193 - [c9]Björn B. Brandenburg, Hennadiy Leontyev, James H. Anderson:
Accounting for Interrupts in Multiprocessor Real-Time Systems. RTCSA 2009: 273-283 - [c8]Björn B. Brandenburg, James H. Anderson:
On the Implementation of Global Real-Time Schedulers. RTSS 2009: 214-224 - 2008
- [c7]Aaron Block, Björn B. Brandenburg, James H. Anderson, Stephen Quint:
An Adaptive Framework for Multiprocessor Real-Time System. ECRTS 2008: 23-33 - [c6]Björn B. Brandenburg, James H. Anderson:
A Comparison of the M-PCP, D-PCP, and FMLPon LITMUSRT. OPODIS 2008: 105-124 - [c5]Björn B. Brandenburg, John M. Calandrino, Aaron Block, Hennadiy Leontyev, James H. Anderson:
Real-Time Synchronization on Multiprocessors: To Block or Not to Block, to Suspend or Spin? IEEE Real-Time and Embedded Technology and Applications Symposium 2008: 342-353 - [c4]Björn B. Brandenburg, James H. Anderson:
An Implementation of the PCP, SRP, D-PCP, M-PCP, and FMLP Real-Time Synchronization Protocols in LITMUSRT. RTCSA 2008: 185-194 - [c3]Björn B. Brandenburg, John M. Calandrino, James H. Anderson:
On the Scalability of Real-Time Scheduling Algorithms on Multicore Platforms: A Case Study. RTSS 2008: 157-169 - 2007
- [c2]Björn B. Brandenburg, James H. Anderson:
Integrating Hard/Soft Real-Time Tasks and Best-Effort Jobs on Multiprocessors. ECRTS 2007: 61-70 - [c1]Aaron Block, Hennadiy Leontyev, Björn B. Brandenburg, James H. Anderson:
A Flexible Real-Time Locking Protocol for Multiprocessors. RTCSA 2007: 47-56
Coauthor Index
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