Mixed-criticality model of computation is being increasingly adopted in timing-sensitive systems. The model not only ensures that the most critical tasks in a system never fails, but also aims for better systems resource utilization in normal condition. In this report, we describe the widely used mixed-criticality task model and fixed-priority scheduling algorithms for the model in uniprocessors. Because of the necessity by the mixed-criticality task model and scheduling policies, isolation, both temporal and spatial, among tasks is one of the main requirements from the system design point of view. Different virtualization techniques have been used to design system software architecture with the goal of isolation. We discuss such ...
Scheduling Mixed-Criticality (MC) workload is a challenging problem in real-time computing. Earliest...
In conventional real-time systems analysis, each system parameter is specified by a single estimate,...
ii HAOHAN LI: Scheduling Mixed-Criticality Real-Time Systems (Under the direction of Dr. Sanjoy K. B...
Real-time systems are increasingly running a mix of tasks with different criticality levels: for ins...
An increasing trend in safety-critical real-time systems is towards open computing environments, whe...
Modern safety-critical real-time systems are realized via integration of multiple system components ...
Timing guarantee is critical to ensure the correctness of embedded software systems that interact wi...
Timing guarantee is critical to ensure the correctness of embedded software systems that interact wi...
In mixed-criticality systems, functionalities of different degrees of importance (or criticalities) ...
A mixed-criticality real-time system is a real-time system having multiple tasks classified accordin...
Abstract—Scheduling mixed-criticality systems that integrate multiple functionalities with different...
The relevance and popularity of mixed-criticality real-time systems precipitously increase in many i...
Systems in many safety-critical application domains are subject to certification requirements. For a...
Abstract—The functional consolidation induced by the cost-reduction trends in embedded systems can f...
International audienceMany safety-critical embedded systems are subject to certification requirement...
Scheduling Mixed-Criticality (MC) workload is a challenging problem in real-time computing. Earliest...
In conventional real-time systems analysis, each system parameter is specified by a single estimate,...
ii HAOHAN LI: Scheduling Mixed-Criticality Real-Time Systems (Under the direction of Dr. Sanjoy K. B...
Real-time systems are increasingly running a mix of tasks with different criticality levels: for ins...
An increasing trend in safety-critical real-time systems is towards open computing environments, whe...
Modern safety-critical real-time systems are realized via integration of multiple system components ...
Timing guarantee is critical to ensure the correctness of embedded software systems that interact wi...
Timing guarantee is critical to ensure the correctness of embedded software systems that interact wi...
In mixed-criticality systems, functionalities of different degrees of importance (or criticalities) ...
A mixed-criticality real-time system is a real-time system having multiple tasks classified accordin...
Abstract—Scheduling mixed-criticality systems that integrate multiple functionalities with different...
The relevance and popularity of mixed-criticality real-time systems precipitously increase in many i...
Systems in many safety-critical application domains are subject to certification requirements. For a...
Abstract—The functional consolidation induced by the cost-reduction trends in embedded systems can f...
International audienceMany safety-critical embedded systems are subject to certification requirement...
Scheduling Mixed-Criticality (MC) workload is a challenging problem in real-time computing. Earliest...
In conventional real-time systems analysis, each system parameter is specified by a single estimate,...
ii HAOHAN LI: Scheduling Mixed-Criticality Real-Time Systems (Under the direction of Dr. Sanjoy K. B...