The traditional Vestal\u27s model of Mixed-Criticality (MC) systems was recently extended to Imprecise Mixed-Critical task model (IMC) to guarantee some minimum level of (degraded) service to the low-critical tasks even after the system switches to the high-critical behavior. This paper extends the IMC task model by associating specific Quality-of-Service (QoS) values with the low-critical tasks and proposes a fluid-based scheduling algorithm, called MCFQ, for such task model. The MCFQ algorithm allows some low-critical tasks to provide full service even during the high-critical behavior so that the QoS of the overall system is increased. To the best of our knowledge MCFQ is the first algorithm for IMC task sets considering multiprocessor p...
Modern safety-critical real-time systems are realized via integration of multiple system components ...
There is an increasing trend in embedded systems towards implementing multiple functionalities upon ...
We consider the scheduling of mixed-criticality task systems, that is, systems where each task to be...
The traditional Vestal\u27s model of Mixed-Criticality (MC) systems was recently extended to Impreci...
In this paper we consider the problem of mixed-criticality (MC) scheduling of implicit-deadline spor...
A mixed-criticality system consists of multiple components with different criticalities. While mixed...
In conventional real-time systems analysis, each system parameter is specified by a single estimate,...
Timing guarantee is critical to ensure the correctness of embedded software systems that interact wi...
While traditional real-time systems analysis requires single pessimistic estimates to represent syst...
Timing guarantee is critical to ensure the correctness of embedded software systems that interact wi...
This paper presents federated scheduling algorithm, called MCFQ, for a set of parallel mixedcritical...
The fluid scheduling model allows for schedules in which an individual task may be assigned a fracti...
This paper presents federated scheduling algorithm, called MCFQ, for a set of parallel mixed-critica...
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...
Modern safety-critical real-time systems are realized via integration of multiple system components ...
There is an increasing trend in embedded systems towards implementing multiple functionalities upon ...
We consider the scheduling of mixed-criticality task systems, that is, systems where each task to be...
The traditional Vestal\u27s model of Mixed-Criticality (MC) systems was recently extended to Impreci...
In this paper we consider the problem of mixed-criticality (MC) scheduling of implicit-deadline spor...
A mixed-criticality system consists of multiple components with different criticalities. While mixed...
In conventional real-time systems analysis, each system parameter is specified by a single estimate,...
Timing guarantee is critical to ensure the correctness of embedded software systems that interact wi...
While traditional real-time systems analysis requires single pessimistic estimates to represent syst...
Timing guarantee is critical to ensure the correctness of embedded software systems that interact wi...
This paper presents federated scheduling algorithm, called MCFQ, for a set of parallel mixedcritical...
The fluid scheduling model allows for schedules in which an individual task may be assigned a fracti...
This paper presents federated scheduling algorithm, called MCFQ, for a set of parallel mixed-critica...
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...
Modern safety-critical real-time systems are realized via integration of multiple system components ...
There is an increasing trend in embedded systems towards implementing multiple functionalities upon ...
We consider the scheduling of mixed-criticality task systems, that is, systems where each task to be...