Paper Info
Title
Quantifying The Energy Efficiency Of Coordinated Micro-Architectural Adaptation For Multimedia Workloads
Abstract
Adaptive micro-architectures aim to achieve greater energy efficiency by dynamically allocating computing resources to match the workload performance. The decisions of when to adapt (temporal dimension) and what to adapt (spatial dimension) are taken by a control algorithm based on an analysis of the power/performance tradeoffs in both dimensions. We perform a rigorous analysis to quantify the energy efficiency limits of fine-grained temporal and coordinated spatial adaptation of multiple architectural resources by casting the control algorithm as a constrained optimization problem. Our study indicates that coordinated adaptation can potentially improve energy efficiency by up to 60% as compared to static architectures and by up to 33% over algorithms that adapt resources in isolation. We also analyze synergistic application of coarse and fine grained adaptation and find modest improvements of up to 18% over optimized dynamic voltage/frequency scaling. Finally, we analyze several previous control algorithms to understand the underlying reasons for their inefficiency.
Year
DOI
Venue
2008
10.1109/ICCD.2008.4751920
2008 IEEE INTERNATIONAL CONFERENCE ON COMPUTER DESIGN
Keywords
Field
DocType
energy efficient,gain,algorithm design and analysis,resource allocation,energy efficiency,hardware
Control algorithm,Algorithm design,Computer science,Workload,Efficient energy use,Inefficiency,Real-time computing,Resource allocation,Frequency scaling,Constrained optimization problem
Conference
ISSN
Citations 
PageRank 
1063-6404
0
0.34
References 
Authors
8
2
Name
Order
Citations
PageRank
Shrirang M. Yardi1554.16
Michael S. Hsiao21467132.13