This research presents a low-overhead heuristic strategy named SEAMERS, for DVFS based energy-aware scheduling for a set of real-time periodic tasks on a ...

This research presents a low-overhead heuristic strategy named SEAMERS, for DVFS based energy-aware scheduling for a set of real-time periodic tasks on a ...

This research presents a low-overhead heuristic strategy named SEAMERS, for DVFS based energy-aware scheduling for a set of real-time periodic tasks on a ...

SEAMERS is a low-overhead heuristic strategy designed for dynamic voltage and frequency scaling (DVFS)-based energyaware scheduling of real-time periodic tasks ...

Devising energy-efficient schedulers has become a critical issue for such kinds of devices. Hence, this research presents a low-overhead heuristic strategy ...

This paper considers the problem of energy-aware static partitioning of periodic real-time tasks on asymmetric multiprocessor platforms. The paper introduces a ...

SEAMERS: A Semi-partitioned Energy-Aware scheduler for heterogeneous MulticorE Real-time Systems · List of references · Publications that cite this publication.

The research presents a low-overhead heuristic strategy named SEAMERS for DVFS based energy aware scheduling on a heterogeneous multicore platform, ...

The presented strategy operates in four phases, namely Deadline Partitioning, Core Clustering, Task Allocation and Energy-Aware Scheduling. Our experimental ...

Bibliographic details on SEAMERS: A Semi-partitioned Energy-Aware scheduler for heterogeneous MulticorEReal-time Systems.