Abstract—In this paper we are interested in mixed hard/soft real-time fault-tolerant applications mapped on distributed heterogeneous architectures. We use the Earliest Deadline First (EDF) scheduling for the hard real-time tasks and the Constant Bandwidth Server (CBS) for the soft tasks. The bandwidth reserved for the servers determines the quality of service (QoS) for soft tasks. CBS enforces temporal isolation, such that soft task overruns do not affect the timing guarantees of hard tasks. Transient faults in hard tasks are tolerated using checkpointing with rollback recovery. We have proposed a Tabu Search-based approach for task mapping and CBS bandwidth reservation, such that the deadlines for the hard tasks are satisfied, even in the...
Previous research which has considered task allocation and fault-tolerance together has concentrated...
Real-time systems are being extensively used in applications that are mission-critical and life-crit...
In this article, we propose a strategy for the synthesis of fault-tolerant schedules and for the map...
In this paper we are interested in mixed-criticality embed-ded applications implemented on distribut...
Abstract—In this paper we address the mapping of mixed-criticality hard real-time applications on di...
This paper presents an approach to the synthesis of low-power fault-tolerant hard real-time applicat...
Safety-critical applications have to function correctly even in presence of faults. This thesis deal...
We survey scheduling algorithms proposed for tolerating permanent and transient failures in real-tim...
Distributed computers systems are increasingly being embedded in complex products such as automobile...
As real-time embedded systems get more diverse and more complicated, systems with different types of...
In this paper we present an approach to the scheduling and voltage scal-ing of low-power fault-toler...
As chip technology keeps on shrinking towards higher densities and lower operating vol- tages, memo...
Abstract—We present an approach to the synthesis of fault-tol-erant hard real-time systems for safet...
Over the past several decades, we have experienced tremendous growth of real-time systems in both sc...
In this paper we are interested in implementing mixed-criticality real-time embedded applications on...
Previous research which has considered task allocation and fault-tolerance together has concentrated...
Real-time systems are being extensively used in applications that are mission-critical and life-crit...
In this article, we propose a strategy for the synthesis of fault-tolerant schedules and for the map...
In this paper we are interested in mixed-criticality embed-ded applications implemented on distribut...
Abstract—In this paper we address the mapping of mixed-criticality hard real-time applications on di...
This paper presents an approach to the synthesis of low-power fault-tolerant hard real-time applicat...
Safety-critical applications have to function correctly even in presence of faults. This thesis deal...
We survey scheduling algorithms proposed for tolerating permanent and transient failures in real-tim...
Distributed computers systems are increasingly being embedded in complex products such as automobile...
As real-time embedded systems get more diverse and more complicated, systems with different types of...
In this paper we present an approach to the scheduling and voltage scal-ing of low-power fault-toler...
As chip technology keeps on shrinking towards higher densities and lower operating vol- tages, memo...
Abstract—We present an approach to the synthesis of fault-tol-erant hard real-time systems for safet...
Over the past several decades, we have experienced tremendous growth of real-time systems in both sc...
In this paper we are interested in implementing mixed-criticality real-time embedded applications on...
Previous research which has considered task allocation and fault-tolerance together has concentrated...
Real-time systems are being extensively used in applications that are mission-critical and life-crit...
In this article, we propose a strategy for the synthesis of fault-tolerant schedules and for the map...