ECRTS: Euromicro Conference on Real-Time Systems

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Past:   Proceedings on DBLP

Future:  Post a CFP for 2024 or later   |   Invite the Organizers Email

 
 

All CFPs on WikiCFP

Event When Where Deadline
ECRTS 2023 35th Euromicro Conference on Real-Time Systems
Jul 11, 2023 - Jul 14, 2023 Vienna, Austria Mar 1, 2023
ECRTS 2022 34th Euromicro Conference on Real-Time Systems
Jul 5, 2022 - Jul 8, 2022 Modena, Italy Feb 2, 2022
ECRTS 2021 33rd Euromicro Conference on Real-Time Systems
Jul 7, 2021 - Jul 9, 2021 virtual Mar 3, 2021
ECRTS 2020 32nd Euromicro Conference on Real-Time Systems
Jul 7, 2020 - Jul 10, 2020 Modena, Italy Feb 6, 2020
ECRTS 2019 31st Euromicro Conference on Real-Time Systems
Jul 9, 2019 - Jul 12, 2019 Stuttgart, Germany Feb 7, 2019
ECRTS 2016 28th EUROMICRO CONFERENCE ON REAL-TIME SYSTEMS
Jul 5, 2016 - Jul 8, 2016 Toulouse Feb 25, 2016
ECRTS 2015 27th Euromicro Conference on Real-Time Systems
Jul 7, 2015 - Jul 10, 2015 Lund, Sweden Feb 1, 2015
ECRTS 2013 25th Euromicro Conference on Real-Time Systems
Jul 10, 2013 - Jul 12, 2013 Paris, France Feb 1, 2013
ECRTS 2012 24th Euromicro Conference on Real-Time Systems
Jul 11, 2012 - Jul 13, 2012 Pisa, Italy Feb 3, 2012
ECRTS 2011 23rd Euromicro Conference on Real-Time Systems
Jul 6, 2011 - Jul 8, 2011 Porto, Portugal Jan 23, 2011
ECRTS 2009 21st EUROMICRO CONFERENCE ON REAL-TIME SYSTEMS
Jul 1, 2009 - Jul 3, 2009 Dublin, Ireland Jan 25, 2009
ECRTS 2008 20th EuroMicro Conference on Real-Time Systems
Jul 2, 2008 - Jul 4, 2008 Prague, Czech Republic, Jan 11, 2008 (Apr 16, 2008)
 
 

Present CFP : 2023

ECRTS is the premier European venue in the area of real-time systems and, alongside RTSS and RTAS, ranks as one of the top three international conferences on this topic.

ECRTS 2023 will be held as a physical conference on July 11-14, 2023 in Vienna, Austria.
Scope and topics of interest

Papers on all aspects of timing requirements in computer systems are welcome. Systems of interest include not only hard real-time systems but also time-sensitive systems in general (e.g., systems with soft requirements expressed in terms of tail latency, latency SLAs, QoS expectations, etc.). Typical applications are found not only in classical embedded and cyber-physical systems, but also increasingly in cloud or edge computing contexts, and often stem from domains such as automotive, avionics, telecommunications, healthcare, robotics, and space systems, among others. To be in scope, papers must address some form of timing requirement, broadly construed.

ECRTS welcomes theoretical and practical contributions (including tools, benchmarks, and case studies) to the state of the art in the design, implementation, verification, and validation of time-sensitive systems.

In recent years, the scope of ECRTS has been extended to cover different aspects of real-time systems, including, but not limited to:

all elements of time-sensitive COMPUTER SYSTEMS, including operating systems, hypervisors, middlewares and frameworks, programming languages and compilers, runtime environments, networks and communication protocols, FPGAs, time-predictable processors and memory controllers, etc.;
REAL-TIME NETWORKS: including wired and wireless sensor and actuator networks, Time-Sensitive Networks (TSN), industrial IoT, Software Defined Network (SDN), 5G, end-to-end latency analysis, etc.;
static and dynamic techniques for RESOURCE DEMAND ESTIMATION, including stochastic and classic worst-case execution time (WCET) analysis, analyses to bound memory and bandwidth needs, and methods for determining the energy, power, or thermal footprint of real-time applications;
FORMAL METHODS for the verification and validation of real-time systems, including model checking, computer-assisted proofs, and runtime monitoring systems;
the interplay of timing predictability and other NON-FUNCTIONAL QUALITIES such as reliability, security, quality of control, energy/power consumption, environmental impact, testability, scalability, etc.;
foundational SCHEDULING and PREDICTABILITY questions, including schedulability analysis, algorithm design, synchronization protocols, computational complexity, temporal isolation, probabilistic guarantees, etc.;
REAL-TIME APPLICATION design and evaluation: including automotive, avionics, control systems, industrial automation, robotics, space, railways telecommunications, multimedia, etc.; and
last but not least, emerging topics such as the use of MACHINE LEARNING techniques in safety-critical systems.

The above list of topics is intended only as a coarse summary of recent proceedings and should not be understood as an exclusive list of interests. On the contrary, papers breaking new ground, departing from established subfields, or challenging the status quo are most welcome and highly encouraged.

The models, assumptions, and application scenarios upon which papers build must be properly motivated. Whenever relevant, we strongly encourage authors to present experimental results (preferably based on real data, but synthetic test cases are acceptable) and/or to demonstrate the applicability of their approach to real systems (examples can be found at ecrts.org/industrial-challenge). We encourage open-source initiatives and computer-assisted proofs to increase confidence in practical and theoretical results and to improve their reusability.
 

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