Mixed-Criticality (MC) systems have been widely studied in the past decade, majorly due to their potential to consolidate applications with different criticality levels onto the same platform. In the original design proposed by Vestal, a target probability of failure per hour specified by certification requirements is assigned to each criticality level. These requirements have been mainly conceived for hardware faults. Software fault tolerance techniques are available to mitigate hardware faults, but their adaptation to real-time systems is challenging due to the introduced overhead. This paper proposes an extension to the traditional MC scheduling theory to implement fault tolerance strategies against transient faults, with the goal of com...
Tolerating hardware faults in modern architectures is becoming a prominent problem due to the miniat...
The majority of prior academic research into mixed criticality systems assumes that if high-critical...
An increasing trend in safety-critical real-time systems is towards open computing environments, whe...
Mixed-Criticality (MC) systems have been widely studied in the past decade, majorly due to their pot...
Certification authorities require correctness and survivability. In the temporal domain this require...
AbstractDependability is an important requirement in hard real-time applications due to the potentia...
Recent years, there is an increasing interest of integrating mixed-criticality functionalities onto ...
The design and analysis of real-time scheduling algorithms for safety-critical systems is a challeng...
Today, many critical information systems have safety-critical and non-safety-critical functions exec...
Mixed-Criticality (MC) systems have emerged as an effective solution in various industries, where mu...
In mixed-criticality systems, functionalities of different degrees of importance (or criticalities) ...
A system is said to be resilient if slight deviations from expected behavior during run-time does no...
This paper proposes a formal framework for describing the relationship between a criticality-aware s...
Raimund Kirner, Saverio Iacovelli and Michael Zolda, 'Optimised Adaptation of Mixed-criticality Syst...
Scheduling Mixed-Criticality (MC) workload is a challenging problem in real-time computing. Earliest...
Tolerating hardware faults in modern architectures is becoming a prominent problem due to the miniat...
The majority of prior academic research into mixed criticality systems assumes that if high-critical...
An increasing trend in safety-critical real-time systems is towards open computing environments, whe...
Mixed-Criticality (MC) systems have been widely studied in the past decade, majorly due to their pot...
Certification authorities require correctness and survivability. In the temporal domain this require...
AbstractDependability is an important requirement in hard real-time applications due to the potentia...
Recent years, there is an increasing interest of integrating mixed-criticality functionalities onto ...
The design and analysis of real-time scheduling algorithms for safety-critical systems is a challeng...
Today, many critical information systems have safety-critical and non-safety-critical functions exec...
Mixed-Criticality (MC) systems have emerged as an effective solution in various industries, where mu...
In mixed-criticality systems, functionalities of different degrees of importance (or criticalities) ...
A system is said to be resilient if slight deviations from expected behavior during run-time does no...
This paper proposes a formal framework for describing the relationship between a criticality-aware s...
Raimund Kirner, Saverio Iacovelli and Michael Zolda, 'Optimised Adaptation of Mixed-criticality Syst...
Scheduling Mixed-Criticality (MC) workload is a challenging problem in real-time computing. Earliest...
Tolerating hardware faults in modern architectures is becoming a prominent problem due to the miniat...
The majority of prior academic research into mixed criticality systems assumes that if high-critical...
An increasing trend in safety-critical real-time systems is towards open computing environments, whe...