Add to ORKGPower-aware computing aims either to maximise the performance of a system under certain constraints on its power consumption and dissipation or, dually, to reduce power consumption in order to meet desired performance or throughput targets. This area is currently gaining importance due to the increasing usage of portable, mobile and hand-held electronic devices. In this paper we illustrate the applicability of probabilistic model checking, a formal verification technique for the analysis of systems which exhibit stochastic behaviour, to the field of power-aware computing. We use the probabilistic model checking tool PRISM on two case studies in this application domain: dynamic power management and dynamic voltage scaling.
Prognostics aims to improve asset availability through intelligent maintenance actions. Up-to-date r...
Probabilistic model checking is a formal verification tech-nique for the modelling and analysis of s...
Nowadays, due to the rapid growth of complexity of hardware/software systems, designing such systems...
We present an approach to deriving stochastic Dynamic Power Management (DPM) strategies that enables...
Probability features increasingly often in software and hardware systems: it is used in distributed ...
Abstract—Probabilistic model checking is a powerful tech-nique for formally verifying quantitative p...
Abstract. The power industry is currently moving towards a more dy-namical, intelligent power grid. ...
Probabilistic model checking is a formal verification technique for the modelling and analysis of st...
AbstractProbabilistic model checking is a formal verification technique for establishing the correct...
Computer hardware and software laid the foundation for fundamental innovations in science, technolog...
Probabilistic model checking is a formal verification technique for the analysis of systems that exh...
Abstract. This tutorial presents an overview of model checking for both discrete and continuous-time...
Probabilistic model checking is a formal verification technique for systems that exhibit stochastic ...
Python implementation of a parametric probabilistic model-checking approach Description The verifica...
System Level Power Management policies are typically based on moving the systemto various power mana...
Prognostics aims to improve asset availability through intelligent maintenance actions. Up-to-date r...
Probabilistic model checking is a formal verification tech-nique for the modelling and analysis of s...
Nowadays, due to the rapid growth of complexity of hardware/software systems, designing such systems...
We present an approach to deriving stochastic Dynamic Power Management (DPM) strategies that enables...
Probability features increasingly often in software and hardware systems: it is used in distributed ...
Abstract—Probabilistic model checking is a powerful tech-nique for formally verifying quantitative p...
Abstract. The power industry is currently moving towards a more dy-namical, intelligent power grid. ...
Probabilistic model checking is a formal verification technique for the modelling and analysis of st...
AbstractProbabilistic model checking is a formal verification technique for establishing the correct...
Computer hardware and software laid the foundation for fundamental innovations in science, technolog...
Probabilistic model checking is a formal verification technique for the analysis of systems that exh...
Abstract. This tutorial presents an overview of model checking for both discrete and continuous-time...
Probabilistic model checking is a formal verification technique for systems that exhibit stochastic ...
Python implementation of a parametric probabilistic model-checking approach Description The verifica...
System Level Power Management policies are typically based on moving the systemto various power mana...
Prognostics aims to improve asset availability through intelligent maintenance actions. Up-to-date r...
Probabilistic model checking is a formal verification tech-nique for the modelling and analysis of s...
Nowadays, due to the rapid growth of complexity of hardware/software systems, designing such systems...