(mobo import Concept___Event_For_Confident-migrated) |
(mobo import Concept___Events-migrated) |
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| Line 8: | Line 8: | ||
|Homepage=https://qonfest2021.lacl.fr/concur21.php | |Homepage=https://qonfest2021.lacl.fr/concur21.php | ||
|City=Paris | |City=Paris | ||
| − | |Country=Online | + | |Country=Country:Online |
|Abstract deadline=2021/04/23 | |Abstract deadline=2021/04/23 | ||
|Paper deadline=2021/04/30 | |Paper deadline=2021/04/30 | ||
| Line 23: | Line 23: | ||
|Start Date=2021/08/23 | |Start Date=2021/08/23 | ||
|End Date=2021/08/27 | |End Date=2021/08/27 | ||
| + | |Event Status=as scheduled | ||
| + | |Event Mode=on site | ||
}} | }} | ||
Due the pandemic situation, the organization committee decided that the conference will take place online as last year's CONCUR: the talks will be pre-recorded and then streamed on Zoom. | Due the pandemic situation, the organization committee decided that the conference will take place online as last year's CONCUR: the talks will be pre-recorded and then streamed on Zoom. | ||
Revision as of 13:53, 6 September 2022
Due the pandemic situation, the organization committee decided that the conference will take place online as last year's CONCUR: the talks will be pre-recorded and then streamed on Zoom.
Topics
Submissions are solicited in semantics, logics, verification and analysis of concurrent systems. The principal topics include (but are not limited to):
Basic models of concurrency such as abstract machines, domain-theoretic models, game-theoretic models, process algebras, graph transformation systems, Petri nets, hybrid systems, mobile and collaborative systems, probabilistic systems, real-time systems, biology-inspired systems, and synchronous systems;
Logics for concurrency such as modal logics, probabilistic and stochastic logics, temporal logics, and resource logics;
Verification and analysis techniques for concurrent systems such as abstract interpretation, atomicity checking, model checking, race detection, pre-order and equivalence checking, run-time verification, state-space exploration, static analysis, synthesis, testing, theorem proving, type systems, and security analysis;
Distributed algorithms and data structures: design, analysis, complexity, correctness, fault tolerance, reliability, availability, consistency, self-organization, self-stabilization, protocols;
Theoretical foundations of architectures, execution environments, and software development for concurrent systems such as geo-replicated systems, communication networks, multiprocessor and multi-core architectures, shared and transactional memory, resource management and awareness, compilers and tools for concurrent programming, programming models such as component-based, object- and service-oriented.
