We develop a novel model-based hardware-in-the-loop (HIL) framework for optimising energy consumption of embedded software controllers. Controller and plant models are specified as networks of parameterised timed input/output automata and translated into executable code. The controller is encoded into the target embedded hardware, which is connected to a power monitor and interacts with the simulation of the plant model. The framework then generates a power consumption model that maps controller transitions to distributions over power measurements, and is used to optimise the timing parameters of the controller, without compromising a given safety requirement. The novelty of our approach is that we measure the real power consumption of the ...
International audienceWriting sustainable, power efficient and green software necessitates understan...
Consumption of power and conservation of energy have become two of the biggest design challenges in ...
Paper analysis early in the design cycle is critical for the design of low-power systems. With the m...
The paper presents an ongoing work towards a methodology for the model-based engineering of energy-e...
International audienceThis paper proposes a method for energy consumption estimation and optimisatio...
Abstract—Reducing power consumption is an important design objective in energy-constrained embedded ...
Abstract—This paper presents a formal description of an approach for model-based engineering of ener...
In modern embedded systems, the use of hardware-level online power monitors is crucial to support th...
non-peer-reviewedReducing power consumption is an important design objective in energy-constrained e...
National audienceThis paper proposes a method for energy consumption estimation and optimisation on ...
Power consumption has become a major design constraint, especially for battery-powered embedded syst...
Due to the resource-constrained nature of embedded systems, it is crucial to support the estimation ...
Nowadays, embedded systems are ubiquitous and inherent in almost all areas of life. In recent years,...
Abstract: This paper presents an extension of the software tool TimeNET, which supports modeling and...
Energy-driven computing is an emerging paradigm that aims to fuel the proliferation of tiny and low-...
International audienceWriting sustainable, power efficient and green software necessitates understan...
Consumption of power and conservation of energy have become two of the biggest design challenges in ...
Paper analysis early in the design cycle is critical for the design of low-power systems. With the m...
The paper presents an ongoing work towards a methodology for the model-based engineering of energy-e...
International audienceThis paper proposes a method for energy consumption estimation and optimisatio...
Abstract—Reducing power consumption is an important design objective in energy-constrained embedded ...
Abstract—This paper presents a formal description of an approach for model-based engineering of ener...
In modern embedded systems, the use of hardware-level online power monitors is crucial to support th...
non-peer-reviewedReducing power consumption is an important design objective in energy-constrained e...
National audienceThis paper proposes a method for energy consumption estimation and optimisation on ...
Power consumption has become a major design constraint, especially for battery-powered embedded syst...
Due to the resource-constrained nature of embedded systems, it is crucial to support the estimation ...
Nowadays, embedded systems are ubiquitous and inherent in almost all areas of life. In recent years,...
Abstract: This paper presents an extension of the software tool TimeNET, which supports modeling and...
Energy-driven computing is an emerging paradigm that aims to fuel the proliferation of tiny and low-...
International audienceWriting sustainable, power efficient and green software necessitates understan...
Consumption of power and conservation of energy have become two of the biggest design challenges in ...
Paper analysis early in the design cycle is critical for the design of low-power systems. With the m...
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