International audienceAutomotive embedded systems need to cope with antagonist requirements: on the one hand, the users and market pressure push car manufacturers to integrate more and more services that go far beyond the control of the car itself. On the other hand, recent standardization efforts in the safety domain has led to the development of the ISO 26262 norm that defines means and requirements to ensure the safe operation of automotive embedded systems. In particular, it led to the definition of ASIL (Automotive Safety and Integrity Levels), i.e., it formally defines several criticality levels. Handling the increased complexity of new services makes new architectures, such as multi or many-cores, appealing choices for the car indust...
Real-time systems are becoming increasingly complex. A modern car, for example, requires a multitude...
International audienceAs the demand for computing power is quickly increasing in the automotive doma...
Systems robustness, cost reduction and certification play an important role in the automotive domain...
International audienceAutomotive embedded systems need to cope with antagonist requirements: on the ...
International audienceAlthough multi/many-core platforms enable the parallel execution of tasks, the...
International audienceIn real-time mixed-critical systems, Worst-Case Execution Time analysis (WCET)...
International audienceMany/multi-cores architectures provide tremendous increase in computation powe...
International audienceMemory access durations on multicore architectures are highly variable, since ...
International audienceWhen integrating mixed critical systems on a multi/many-core, one challenge is...
For mixed-criticality automotive systems, the functional safety standard ISO 26262 stipulates freedo...
In mixed-criticality systems, functionalities of different degrees of importance (or criticalities) ...
The ever-growing complexity of safety-critical control systems continues to require evolution in con...
International audienceThe safety critical industry is considering a shift from single-core COTS to m...
Real-time systems are becoming increasingly complex. A modern car, for example, requires a multitude...
International audienceAs the demand for computing power is quickly increasing in the automotive doma...
Systems robustness, cost reduction and certification play an important role in the automotive domain...
International audienceAutomotive embedded systems need to cope with antagonist requirements: on the ...
International audienceAlthough multi/many-core platforms enable the parallel execution of tasks, the...
International audienceIn real-time mixed-critical systems, Worst-Case Execution Time analysis (WCET)...
International audienceMany/multi-cores architectures provide tremendous increase in computation powe...
International audienceMemory access durations on multicore architectures are highly variable, since ...
International audienceWhen integrating mixed critical systems on a multi/many-core, one challenge is...
For mixed-criticality automotive systems, the functional safety standard ISO 26262 stipulates freedo...
In mixed-criticality systems, functionalities of different degrees of importance (or criticalities) ...
The ever-growing complexity of safety-critical control systems continues to require evolution in con...
International audienceThe safety critical industry is considering a shift from single-core COTS to m...
Real-time systems are becoming increasingly complex. A modern car, for example, requires a multitude...
International audienceAs the demand for computing power is quickly increasing in the automotive doma...
Systems robustness, cost reduction and certification play an important role in the automotive domain...