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Energy-Efficient Parallel Real-Time Scheduling on Clustered Multi-Core.

, , , , , and . IEEE Trans. Parallel Distributed Syst., 31 (9): 2097-2111 (2020)

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Response time analysis for dynamic priority scheduling in ROS2., , , , and . DAC, page 301-306. ACM, (2022)Real-Time Scheduling upon a Host-Centric Acceleration Architecture with Data Offloading., , , , , , and . RTAS, page 56-69. IEEE, (2020)Mixed-Criticality Scheduling upon Varying-Speed Multiprocessors., and . DASC, page 237-244. IEEE Computer Society, (2014)EDF Schedulability Analysis on Mixed-Criticality Systems with Permitted Failure Probability., , and . RTCSA, page 187-196. IEEE Computer Society, (2015)EDF-Based Mixed-Criticality Scheduling with Graceful Degradation by Bounded Lateness., and . RTCSA, page 1-6. IEEE, (2019)SEAM: An Optimal Message Synchronizer in ROS with Well-Bounded Time Disparity., , , , , and . RTSS, page 172-184. IEEE, (2023)Tighter Bounds of Speedup Factor of Partitioned EDF for Constrained-Deadline Sporadic Tasks., , , , and . RTSS, page 431-440. IEEE, (2021)Worst-Case Time Disparity Analysis of Message Synchronization in ROS., , , , , and . RTSS, page 40-52. IEEE, (2022)A Mixed-Criticality Approach to Fault Tolerance: Integrating Schedulability and Failure Requirements., , , and . RTAS, page 27-39. IEEE, (2022)CASS: Criticality-Aware Standby-Sparing for real-time systems., , , , , , , and . J. Syst. Archit., (2019)