Although internal devices (e.g., memory, timers) and external devices (e.g., transceivers, sensors) significantly contribute to the energy consumption of an embedded real-time system, their impact on the worst-case response energy consumption (WCRE) of tasks is usually not adequately taken into account. Most WCRE analysis techniques, for example, only focus on the processor and therefore do not consider the energy consumption of other hardware units. Apart from that, the typical approach for dealing with devices is to assume that all of them are always activated, which leads to high WCRE overestimations in the general case where a system switches off the devices that are currently not needed in order to minimize energy consumption. In this ...
Consumption of power and conservation of energy have become two of the biggest design challenges in ...
Multi-core processors increasingly appear as an enabling platform for embedded systems, e.g., mobile...
The ever-increasing ecological footprint of Information Technology (IT) sector coupled with adverse ...
Although internal devices (e.g., memory, timers) and external devices (e.g., sensors, transceivers) ...
Although internal devices (e.g., memory, timers) and external devices (e.g., transceivers, sensors) ...
Many energy-constrained cyber-physical systems require both timeliness and the execution of tasks wi...
The increasing number of embedded systems spawns applications with critical constraints in both exec...
Abstract—The fact that energy is a scarce resource in many embedded real-time systems creates the ne...
This paper presents EnergyAnalyzer, a code-level static analysis tool for estimating the energy cons...
This article examines dynamic energy consumption caused by data during software execution on deeply ...
[EN] The number of (edge) devices connected to the IoT is on the rise, reaching hundreds of billions...
The advent of autonomous power-limited systems poses a new challenge for system verification. Powerf...
10.1109/RTAS.2006.17Proceedings of the IEEE Real-Time and Embedded Technology and Applications Sympo...
International audienceFuture extreme-scale supercomputers will gather hundreds of million cores. The...
Worst case execution time (WCET) analysis is used to verify that real-time tasks on systems can be e...
Consumption of power and conservation of energy have become two of the biggest design challenges in ...
Multi-core processors increasingly appear as an enabling platform for embedded systems, e.g., mobile...
The ever-increasing ecological footprint of Information Technology (IT) sector coupled with adverse ...
Although internal devices (e.g., memory, timers) and external devices (e.g., sensors, transceivers) ...
Although internal devices (e.g., memory, timers) and external devices (e.g., transceivers, sensors) ...
Many energy-constrained cyber-physical systems require both timeliness and the execution of tasks wi...
The increasing number of embedded systems spawns applications with critical constraints in both exec...
Abstract—The fact that energy is a scarce resource in many embedded real-time systems creates the ne...
This paper presents EnergyAnalyzer, a code-level static analysis tool for estimating the energy cons...
This article examines dynamic energy consumption caused by data during software execution on deeply ...
[EN] The number of (edge) devices connected to the IoT is on the rise, reaching hundreds of billions...
The advent of autonomous power-limited systems poses a new challenge for system verification. Powerf...
10.1109/RTAS.2006.17Proceedings of the IEEE Real-Time and Embedded Technology and Applications Sympo...
International audienceFuture extreme-scale supercomputers will gather hundreds of million cores. The...
Worst case execution time (WCET) analysis is used to verify that real-time tasks on systems can be e...
Consumption of power and conservation of energy have become two of the biggest design challenges in ...
Multi-core processors increasingly appear as an enabling platform for embedded systems, e.g., mobile...
The ever-increasing ecological footprint of Information Technology (IT) sector coupled with adverse ...