Timing verification of multi-core systems is complicated by contention for shared hardware resources between co-running tasks on different cores. This paper introduces the Multi-core Resource Stress and Sensitivity (MRSS) task model that characterizes how much stress each task places on resources and how much it is sensitive to such resource stress. This model facilitates a separation of concerns, thus retaining the advantages of the traditional two-step approach to timing verification (i.e. timing analysis followed by schedulability analysis). Response time analysis is derived for the MRSS task model, providing efficient context-dependent and context independent schedulability tests for both fixed priority preemptive and fixed priority non...
In this paper, we introduce a multicore response time analysis (MRTA) framework, which decouples res...
The timing verification of real-time single core systems involves a timing analysis step that yields...
Commercial Off-The-Shelf (COTS) processors are now commonly used in real-time embedded systems. The ...
Timing verification of multi-core systems is complicated by contention for shared hardware resources...
Timing verification of multi-core systems is complicated by contention for shared hardware resources...
The most significant trend in real-time systems design in recent years has been the adoption of mult...
Abstract—As multiprocessor systems are increasingly used in real-time environments, scheduling and s...
Timing matters. This is especially true for safety-critical real-time applications, since human live...
This survey provides an overview of the scientific literature on timing verification techniques for ...
While the computing industry has shifted from single-core to multi-core processors for performance g...
In singlecore processors timing analysis involves a step of Execution Time Analysis at task level th...
International audienceThe increasing performance requirements of safety-critical real-time embedded ...
Multicore technology has the potential for drastically increasing productivity of embedded real-time...
Commercial Off-The-Shelf (COTS) processors are now commonly used in real-time embedded systems. The ...
The timing verification of real-time single core systems involves a timing analysis step that yields...
In this paper, we introduce a multicore response time analysis (MRTA) framework, which decouples res...
The timing verification of real-time single core systems involves a timing analysis step that yields...
Commercial Off-The-Shelf (COTS) processors are now commonly used in real-time embedded systems. The ...
Timing verification of multi-core systems is complicated by contention for shared hardware resources...
Timing verification of multi-core systems is complicated by contention for shared hardware resources...
The most significant trend in real-time systems design in recent years has been the adoption of mult...
Abstract—As multiprocessor systems are increasingly used in real-time environments, scheduling and s...
Timing matters. This is especially true for safety-critical real-time applications, since human live...
This survey provides an overview of the scientific literature on timing verification techniques for ...
While the computing industry has shifted from single-core to multi-core processors for performance g...
In singlecore processors timing analysis involves a step of Execution Time Analysis at task level th...
International audienceThe increasing performance requirements of safety-critical real-time embedded ...
Multicore technology has the potential for drastically increasing productivity of embedded real-time...
Commercial Off-The-Shelf (COTS) processors are now commonly used in real-time embedded systems. The ...
The timing verification of real-time single core systems involves a timing analysis step that yields...
In this paper, we introduce a multicore response time analysis (MRTA) framework, which decouples res...
The timing verification of real-time single core systems involves a timing analysis step that yields...
Commercial Off-The-Shelf (COTS) processors are now commonly used in real-time embedded systems. The ...