THERMAC
Thermal-aware Resource Management for Modern Computing Platforms in the Next Generation of Aircraft
| Clean Sky 2 H2020-CS2-CFP08-2018-01 nr. 832011 30 months (Apr 2019 to Sep 2021) | |
| Summary: | The main goal of the THERMAC project for the next generation of small aircraft transportation (SAT) systems is twofold: (i) to reduce the operational temperature and; (ii) to increase the guaranteed performance of the targeted computing platform, by means of software-based resource management. Specifically, the project aims at: (1) increasing the guaranteed performance by 30% for an equivalent thermal profile; (2) reducing the operational temperature by 20% for an equivalent guaranteed performance. By improved performance, we mean that THERMAC’s results will allow to integrate more complex or a larger number of functionalities in the same computing platform without increasing the operational temperature of the system while instead ensuring a more thermal efficient usage of the hardware resources at disposal. All those functionalities will be guaranteed to respect their functional (e.g., synchronization, actuation, access to shared resources and I/Os, etc.) and nonfunctional requirements (e.g., independence of interference, timing constraints). In addition to these two already ambitious goals, the THERMAC project will develop, for a given application and traces of the temperature of the platform operations, a temperature sensing and monitoring framework in order to feed models that are capable of predicting the life-time of critical hardware components. |
| Funding: | Global: 793KEUR, CISTER: 444KEUR |
| Sponsors: |    |
| Leaders: |  |
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| Contact Person at CISTER: | Eduardo Tovar |
27, May, 2019
Periodic Seminar on Thermal-Aware Scheduling
24, May, 2019
THERMAC physical kick-off meeting at CISTER
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Conference or Workshop Papers/Talks
An Efficient Proactive Thermal-Aware Scheduler for DVFS-enabled Single-Core Processors CISTER-TR-210301
Javier Pérez Rodríguez, Patrick Meumeu Yomsi29th International Conference on Real-Time Networks and Systems (RTNS 2021). 7 to 9, Apr, 2021, Session 3: Scheduling and Timing analysis. Online.
Javier Pérez Rodríguez, Patrick Meumeu Yomsi29th International Conference on Real-Time Networks and Systems (RTNS 2021). 7 to 9, Apr, 2021, Session 3: Scheduling and Timing analysis. Online.
PDFWork-in-Progress: Towards a fine-grain thermal model for uniform multi-core processors CISTER-TR-201004
Javier Pérez Rodríguez, Patrick Meumeu YomsiWork in Progress Session, 41st IEEE Real-Time Systems Symposium (RTSS 2020). 1 to 4, Dec, 2020, pp 403-406. Online.
Javier Pérez Rodríguez, Patrick Meumeu YomsiWork in Progress Session, 41st IEEE Real-Time Systems Symposium (RTSS 2020). 1 to 4, Dec, 2020, pp 403-406. Online.
Thermal-Aware Schedulability Analysis for Fixed-Priority Non-Preemptive Real-Time Systems CISTER-TR-190903
Javier Pérez Rodríguez, Patrick Meumeu Yomsi40th IEEE Real-Time Systems Symposium (RTSS 2019). 18 to 21, Feb, 2020, Real-Time System, pp 154-166. York, United Kingdom.RTSS 2019 originally postponed from December 2019 (Hong-Kong) to February 2020 (York, UK) was cancelled.
Javier Pérez Rodríguez, Patrick Meumeu Yomsi40th IEEE Real-Time Systems Symposium (RTSS 2019). 18 to 21, Feb, 2020, Real-Time System, pp 154-166. York, United Kingdom.RTSS 2019 originally postponed from December 2019 (Hong-Kong) to February 2020 (York, UK) was cancelled.
Response-Time Analysis of Limited-Preemptive Parallel DAG Tasks under Global Scheduling CISTER-TR-190405
Mitra Nasri, Geoffrey Nelissen, Björn B. Brandenburg31st Conference on Real-Time Systems (ECRTS 2019). 9 to 12, Jul, 2019, pp 21:1-21:23. Stuttgart, Germany.
Mitra Nasri, Geoffrey Nelissen, Björn B. Brandenburg31st Conference on Real-Time Systems (ECRTS 2019). 9 to 12, Jul, 2019, pp 21:1-21:23. Stuttgart, Germany.
Towards Robust and Cost-Effective Critical Real-Time Systems under Thermal-Aware Design CISTER-TR-190511
Javier Pérez Rodríguez, Patrick Meumeu YomsiWork in Progress Session, 31st Conference on Real-Time Systems (ECRTS 2019). 9 to 13, Jul, 2019, pp 13-15. Stuttgart, Germany.https://www.ecrts.org/archives/fileadmin/WebsitesArchiv/ecrts2019/wp-content/uploads/2019/06/ECRTS2019-WIP-proceedings.pdf
Javier Pérez Rodríguez, Patrick Meumeu YomsiWork in Progress Session, 31st Conference on Real-Time Systems (ECRTS 2019). 9 to 13, Jul, 2019, pp 13-15. Stuttgart, Germany.https://www.ecrts.org/archives/fileadmin/WebsitesArchiv/ecrts2019/wp-content/uploads/2019/06/ECRTS2019-WIP-proceedings.pdf
ResilienceP Analysis: Bounding Cache Persistence Reload Overhead for Set-Associative Caches CISTER-TR-190512
Syed Aftab Rashid, Geoffrey Nelissen, Eduardo TovarWork in Progress Session, 31st Conference on Real-Time Systems (ECRTS 2019). 9 to 13, Jul, 2019, pp 7-9. Stuttgart, Germany.https://www.ecrts.org/archives/fileadmin/WebsitesArchiv/ecrts2019/wp-content/uploads/2019/06/ECRTS2019-WIP-proceedings.pdf
Syed Aftab Rashid, Geoffrey Nelissen, Eduardo TovarWork in Progress Session, 31st Conference on Real-Time Systems (ECRTS 2019). 9 to 13, Jul, 2019, pp 7-9. Stuttgart, Germany.https://www.ecrts.org/archives/fileadmin/WebsitesArchiv/ecrts2019/wp-content/uploads/2019/06/ECRTS2019-WIP-proceedings.pdf
Technical Reports
D5.1 - Benchmark suite and evaluation techniques CISTER-TR-200717
Michal Sojka, Ondra Benedikt, Cláudio Maia26, Jul, 2020.
Michal Sojka, Ondra Benedikt, Cláudio Maia26, Jul, 2020.