Reducing energy consumption is becoming very important in order to keep battery life and lower overall operational costs for heterogeneous real-time multiprocessor systems. In this paper, we first formulate this as a combinatorial optimization problem. Then, a successful meta-heuristic, called Shuffled Frog Leaping Algorithm (SFLA) is proposed to reduce the energy consumption. Precocity remission and local optimal avoidance techniques are proposed to avoid the precocity and improve the solution quality. Convergence acceleration significantly reduces the search time. Experimental results show that the SFLA-based energy-aware meta-heuristic uses 30% less energy than the Ant Colony Optimization (ACO) algorithm, and 60% less energy than the G...
In a precedent work we saw that finding efficient scheduling algorithms for fixed-priority energy-ha...
This paper proposes a genetic algorithm (GA) based energy-efficient design-time task scheduling algo...
This paper presents Improved Frog Leaping (IFL) algorithm for solving optimal reactive power problem...
Reducing energy consumption is becoming very important in order to keep battery life and lower over...
The general problem of multiprocessor scheduling is stated as scheduling tasks on a multiprocessor s...
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...
This paper presents a shuffled frog leaping algorithm (SFLA) for the single-mode resource-constraine...
Energy efficient real-time systems has been a prime concern in the last few years. Techniques on all...
Task scheduling algorithms are designed mostly with the sole goal of minimizing makespan (completion...
In this paper we present meta-heuristics to solve the energy aware reward based scheduling of real-t...
The short-term hydro generation scheduling (STHGS) decomposed into unit commitment (UC) and economic...
Re-entrant hybrid flow shop scheduling problem (RHFSP) is widely used in industries. However, little...
It is extensively acknowledged that excessive on-site electricity power load often causes power fail...
It is extensively acknowledged that excessive on-site electricity power load often causes power fail...
In a precedent work we saw that finding efficient scheduling algorithms for fixed-priority energy-ha...
This paper proposes a genetic algorithm (GA) based energy-efficient design-time task scheduling algo...
This paper presents Improved Frog Leaping (IFL) algorithm for solving optimal reactive power problem...
Reducing energy consumption is becoming very important in order to keep battery life and lower over...
The general problem of multiprocessor scheduling is stated as scheduling tasks on a multiprocessor s...
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...
This paper presents a shuffled frog leaping algorithm (SFLA) for the single-mode resource-constraine...
Energy efficient real-time systems has been a prime concern in the last few years. Techniques on all...
Task scheduling algorithms are designed mostly with the sole goal of minimizing makespan (completion...
In this paper we present meta-heuristics to solve the energy aware reward based scheduling of real-t...
The short-term hydro generation scheduling (STHGS) decomposed into unit commitment (UC) and economic...
Re-entrant hybrid flow shop scheduling problem (RHFSP) is widely used in industries. However, little...
It is extensively acknowledged that excessive on-site electricity power load often causes power fail...
It is extensively acknowledged that excessive on-site electricity power load often causes power fail...
In a precedent work we saw that finding efficient scheduling algorithms for fixed-priority energy-ha...
This paper proposes a genetic algorithm (GA) based energy-efficient design-time task scheduling algo...
This paper presents Improved Frog Leaping (IFL) algorithm for solving optimal reactive power problem...