In this paper we present meta-heuristics to solve the energy aware reward based scheduling of real-time tasks with mandatory and optional parts in homogeneous multi-core processors. The problem is NP-Hard. An objective function to maximize the performance of the system considering the execution of optional parts, the benefits of slowing down the processor and a penalty for changing the operation power-mode is introduced together with a set of constraints that guarantee the real-time performance of the system. The meta-heuristics are the bio-inspired methods Particle Swarm Optimization and Genetic Algorithm. Experiments are made to evaluate the proposed algorithms using a set of synthetic systems of tasks. As these have been used previously ...
In this paper an energy-aware scheduling algorithm for heterogeneous multicore general purpose/speci...
Abstract—As application complexity increases, modern embedded systems have adopted heterogeneous pro...
The paper presents balanced heuristic techniques of static tasks scheduling in multi-core real-time ...
In this paper we present meta-heuristics to solve the energy aware reward based scheduling of real-t...
Energy consumption in computer systems has become a more and more important issue. High energy consu...
Minimizing power consumption to prolong battery life has become an important design issue for portab...
Modern multi-core embedded processors allow to implement increasingly complex processing application...
Abstract—In recent years the multi-core era started to affect embedded systems, changing some of the...
We present a number of novel algorithms, based on mathematical optimization formulations, in order t...
International audienceLow energy consumption and high reliability are widely identified as increasin...
Abstract. In this study, we address the meta-task scheduling problem in heterogeneous computing (HC)...
Energy optimization for periodic applications running on safety/time-critical time-triggered multipr...
The availability of mechanisms such as dynamic voltage and frequency scaling (DVFS) and heterogeneou...
Energy efficient real-time systems has been a prime concern in the last few years. Techniques on all...
International audienceThe ongoing increase of energy consumption by IT infrastructures forces data c...
In this paper an energy-aware scheduling algorithm for heterogeneous multicore general purpose/speci...
Abstract—As application complexity increases, modern embedded systems have adopted heterogeneous pro...
The paper presents balanced heuristic techniques of static tasks scheduling in multi-core real-time ...
In this paper we present meta-heuristics to solve the energy aware reward based scheduling of real-t...
Energy consumption in computer systems has become a more and more important issue. High energy consu...
Minimizing power consumption to prolong battery life has become an important design issue for portab...
Modern multi-core embedded processors allow to implement increasingly complex processing application...
Abstract—In recent years the multi-core era started to affect embedded systems, changing some of the...
We present a number of novel algorithms, based on mathematical optimization formulations, in order t...
International audienceLow energy consumption and high reliability are widely identified as increasin...
Abstract. In this study, we address the meta-task scheduling problem in heterogeneous computing (HC)...
Energy optimization for periodic applications running on safety/time-critical time-triggered multipr...
The availability of mechanisms such as dynamic voltage and frequency scaling (DVFS) and heterogeneou...
Energy efficient real-time systems has been a prime concern in the last few years. Techniques on all...
International audienceThe ongoing increase of energy consumption by IT infrastructures forces data c...
In this paper an energy-aware scheduling algorithm for heterogeneous multicore general purpose/speci...
Abstract—As application complexity increases, modern embedded systems have adopted heterogeneous pro...
The paper presents balanced heuristic techniques of static tasks scheduling in multi-core real-time ...