Many mixed-criticality systems are composed of a RTOS (Real-Time Operating System) and a GPOS (General Purpose Operating System), and we define them as mixed-time-sensitive systems. Complexity, isolation, real-time latency, and overhead are the main metrics to evaluate such a mixed-time-sensitive system (MTSS). These metrics may conflict with each other, so it is difficult for them to be consistently optimized. Most existing implementations only optimize part of the above metrics but not all. As the first contribution, this paper provides a detailed analysis of performance influencing factors which are exerted by various runtime mechanisms of existing MTSSs. We figure out the difference in performance across system designs, including task s...
This survey covers research into mixed criticality systems that has been published since Vestal’s se...
The common availability of multiple processors in modern CPU devices and the need to reduce cost of ...
In this paper we evaluate a virtualized RTOS by detail-ing its internal fine-grained overheads and l...
Many mixed-criticality systems are composed of a RTOS (Real-Time Operating System) and a GPOS (Gener...
With the emergence of multicore embedded System on Chip (SoC), the integration of several applicatio...
The most significant trend in real-time systems design in recent years has been the adoption of mult...
Background: With an increase of the number of features in a vehicle, the computational requirements ...
International audienceIn this paper we evaluate a virtualized RTOS by detailing its internal fine-gr...
In mixed-criticality systems, timely handling of I/O is a key for the system being successfully impl...
Safety-critical applications in cyber-physical domains such as avionics and automotive systems requi...
This paper reports upon our on-going research in supporting mixed criticality by means of an OSEK-co...
To move mixed criticality research into industrial practice requires models whose run-time behaviour...
This paper reports upon our on-going research in supporting mixed criticality by means of an OSEK-co...
A mixed-criticality real-time system is a real-time system having multiple tasks classified accordin...
23rd International Conference on Real-Time Networks and Systems (RTNS 2015). 4 to 6, Nov, 2015, Main...
This survey covers research into mixed criticality systems that has been published since Vestal’s se...
The common availability of multiple processors in modern CPU devices and the need to reduce cost of ...
In this paper we evaluate a virtualized RTOS by detail-ing its internal fine-grained overheads and l...
Many mixed-criticality systems are composed of a RTOS (Real-Time Operating System) and a GPOS (Gener...
With the emergence of multicore embedded System on Chip (SoC), the integration of several applicatio...
The most significant trend in real-time systems design in recent years has been the adoption of mult...
Background: With an increase of the number of features in a vehicle, the computational requirements ...
International audienceIn this paper we evaluate a virtualized RTOS by detailing its internal fine-gr...
In mixed-criticality systems, timely handling of I/O is a key for the system being successfully impl...
Safety-critical applications in cyber-physical domains such as avionics and automotive systems requi...
This paper reports upon our on-going research in supporting mixed criticality by means of an OSEK-co...
To move mixed criticality research into industrial practice requires models whose run-time behaviour...
This paper reports upon our on-going research in supporting mixed criticality by means of an OSEK-co...
A mixed-criticality real-time system is a real-time system having multiple tasks classified accordin...
23rd International Conference on Real-Time Networks and Systems (RTNS 2015). 4 to 6, Nov, 2015, Main...
This survey covers research into mixed criticality systems that has been published since Vestal’s se...
The common availability of multiple processors in modern CPU devices and the need to reduce cost of ...
In this paper we evaluate a virtualized RTOS by detail-ing its internal fine-grained overheads and l...