Multiprocessor platforms play important roles in modern computing systems, and appear in various applications, ranging from energy-limited hand-held devices to large data centers. As the performance requirements increase, energy-consumption in these systems also increases signiﬁcantly. Dynamic Voltage and Frequency Scaling (DVFS), which allows processors to dynamically adjust the supply voltage and the clock frequency to operate on diﬀerent power/energy levels, is considered an eﬀective way to achieve the goal of energy-saving.This book surveys existing works that have been on energy-aware task scheduling on DVFS multiprocessor platforms.Energy-aware scheduling problems are intrinsically optimization problems, the formulations of which greatly depend on the platform and task models under consideration. Thus,Energy-aware Scheduling on Multiprocessor Platformscoverscurrent research on this topic and classiﬁes existing works according to two key standards, namely, homogeneity/heterogeneity of multiprocessor platforms and the task types considered. Under this classiﬁcation, other sub-issues are also included, such as, slack reclamation, ﬁxed/dynamic priority scheduling, partition-based/global scheduling, and application-speciﬁc power consumption,etc.
Table of ContentsIntroduction.- System Model.- Scheduling on Homogeneous DVFS Multiprocessor Platforms.- Scheduling on Hetereogeneous DVFS Multiprocessor Systems.- Related Work.- Conclusion and Future Directions.