Articles dans des revues avec comité de lecture (5)
  1. 1. Picard, S., Paolillo, A., Geeraerts, G., & Goossens, J. (2024). Exact schedulability test for sporadic mixed-criticality real-time systems using antichains and oracles. Proceedings of Real-Time and Network Systems. doi:https://doi.org/10.1145/3696355.3699702
  2. 2. Goossens, J., Paolillo, A., Poczekajlo, X., & Rodriguez, P. (2019). ACCEPTOR: a model and a protocol for real-time multi-mode applications on reconfigurable heterogeneous platforms. Proceedings of Real-Time and Network Systems. doi:10.1145/3356401.3356420
  3. 3. Rivas Concepcion, J. M., Goossens, J., Poczekajlo, X., & Paolillo, A. (2019). Implementation of Memory Centric Scheduling for COTS Multi-Core Real-Time Systems. Proceedings (Euromicro Conference on Real-Time Systems). doi:10.4230/LIPIcs.ECRTS.2019.7
  4. 4. Paolillo, A., Rodriguez Lobera, P., Veshchikov, N., Goossens, J., & Rodriguez Lobera, B. (2016). Quantifying Energy Consumption for Practical Fork-Join Parallelism on an Embedded Real-Time Operating System. Proceedings of Real-Time and Network Systems., 329-338.
  5. 5. Paolillo, A., Goossens, J., Hettiarachchi, P. M., & Fisher, N. (2014). Power Minimization for Parallel Real-Time Systems with Malleable Jobs and Homogeneous Frequencies. Proceedings (International Conference on Real-Time Computing Systems and Applications). doi:10.1109/RTCSA.2014.6910538
    6.   Communications publiées lors de congrès ou colloques nationaux et internationaux (5)
  6. 1. De Greef, R., Discepoli, A., Klein, E. A., Engels, T., Hasselmann, K., & Paolillo, A. (2025). Towards Macro-Aware C-to-Rust Transpilation (WIP). Proceedings of the 26th ACM SIGPLAN/SIGBED International Conference on Languages, Compilers, and Tools for Embedded Systems (pp. 57-61) ACM SIGPLAN/SIGBED International Conference on Languages, Compilers, and Tools for Embedded Systems(26).
  7. 2. Engels, T., Discepoli, A., De Greef, R., Klein, E. A., D'Agostino, F., Gunsett, R., Pisane, J., Hasselmann, K., & Paolillo, A. (2025). FORCES: An Incremental Transpiler from C/C++ to Rust for Robust and Secure Robotics Systems. Rust for Robotics: Building Robust Foundations for Tomorrow's Autonomous Systems ICRA 2025 Workshop
  8. 3. Dewit, W., Paolillo, A., & Goossens, J. (2024). A Preliminary Assessment of the real-time capabilities of Real-Time Linux on Raspberry Pi 5. In 18th annual workshop on Operating Systems Platforms for Embedded Real-Time applications Alexander Zuepke and Kuan-Hsun Chen.
  9. 4. Paolillo, A., Rodriguez, P., Desenfans, O., Svoboda, V., Goossens, J., Rodriguez Lobera, B., Girbal, S., Faugière, M., & Bonnot, P. (2017). Porting a safety-critical industrial application on a mixed-criticality enabled real-time operating system. Workshop on Mixed Criticality Systems (2017)
  10. 5. Paolillo, A., Desenfans, O., Svoboda, V., Goossens, J., & Rodriguez Lobera, B. (2015). A New Configurable and Parallel Embedded Real-time Micro-Kernel for Multi-core platforms. 11th annual workshop on Operating Systems Platforms for Embedded Real-Time applications: OSPERT 2015 (July 7th 2015: Lund, Sweden)
    11.   Rapports de recherche, comptes rendus, lettres à l'éditeur, working papers (2)
  11. 1. Rivas Concepcion, J. M., Goossens, J., Poczekajlo, X., Paolillo, A., Rodriguez, P., & Rodriguez Lobera, B. (2019). Development and evaluation of a prototype of a Memory Centric Scheduler.
  12. 2. Paolillo, A., Goossens, J., Fisher, N., & Hettiarachchi, P. M. (2013). Power Minimization for Parallel Real-Time Systems with Malleable Jobs and Homogeneous Frequencies.
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