Abstract—Mixed critical platforms are those in which ap-plications that have different criticalities, i.e. different levels of importance for system safety, coexist and share resources. Such platforms require a memory controller capable of pro-viding sufficient timing independence for critical applications. Existing real-time memory controllers, however, either do not support mixed criticality or still allow a certain degree of interference between applications. The former issue leads to overly constrained, and hence more expensive, systems. The latter issue forces designers to assume the worst case latency for every individual memory transaction, which can be very conservative when applied to determine the worst-case execution time (WCET) ...
Multicore processors have imported the powerful computing capacity to real-time systems, allowing th...
In mixed criticality systems, it is vital to ensure that there is sufficient separation between task...
Safety-critical applications in cyber-physical domains such as avionics and automotive systems requi...
Abstract—Mixed-criticality systems have tasks with different criticality levels running on the same ...
Abstract—Complex Systems-on-Chips (SoC) are mixed time-criticality systems that have to support firm...
Mixed-criticality (MC) multicore system design must reconcile safety guarantees and high performanc...
Abstract—The functional consolidation induced by the cost-reduction trends in embedded systems can f...
Mixed-criticality multicore system design must often provide both safety guarantees and high perform...
International audienceThose autonomic concurrent systems which are timing-critical and compute inten...
This book discusses the design and performance analysis of SDRAM controllers that cater to both real...
Mixed-criticality model of computation is being increasingly adopted in timing-sensitive systems. T...
Memory controller design is challenging as mixed time-criticality embedded systems feature an increa...
Modern safety-critical real-time systems are realized via integration of multiple system components ...
The ever-growing complexity of safety-critical control systems continues to require evolution in con...
Work in Progress Session, 28th Euromicro Conference on Real-Time Systems (ECRTS 2016). 5 to 8, Jul, ...
Multicore processors have imported the powerful computing capacity to real-time systems, allowing th...
In mixed criticality systems, it is vital to ensure that there is sufficient separation between task...
Safety-critical applications in cyber-physical domains such as avionics and automotive systems requi...
Abstract—Mixed-criticality systems have tasks with different criticality levels running on the same ...
Abstract—Complex Systems-on-Chips (SoC) are mixed time-criticality systems that have to support firm...
Mixed-criticality (MC) multicore system design must reconcile safety guarantees and high performanc...
Abstract—The functional consolidation induced by the cost-reduction trends in embedded systems can f...
Mixed-criticality multicore system design must often provide both safety guarantees and high perform...
International audienceThose autonomic concurrent systems which are timing-critical and compute inten...
This book discusses the design and performance analysis of SDRAM controllers that cater to both real...
Mixed-criticality model of computation is being increasingly adopted in timing-sensitive systems. T...
Memory controller design is challenging as mixed time-criticality embedded systems feature an increa...
Modern safety-critical real-time systems are realized via integration of multiple system components ...
The ever-growing complexity of safety-critical control systems continues to require evolution in con...
Work in Progress Session, 28th Euromicro Conference on Real-Time Systems (ECRTS 2016). 5 to 8, Jul, ...
Multicore processors have imported the powerful computing capacity to real-time systems, allowing th...
In mixed criticality systems, it is vital to ensure that there is sufficient separation between task...
Safety-critical applications in cyber-physical domains such as avionics and automotive systems requi...