none6siMultimedia streaming applications running on next-generation parallel multiprocessor arrays in sub-45nm technology face new challenges related to device and process variability, leading to performance and power variations across the cores. In this context, Quality of Service (QoS), as well as energy efficiency, could be severely impacted by variability. In this work we propose a run-time variability-aware workload distribution technique for enhancing real-time predictability and energy efficiency based on an innovative Linear-Programming + Bin-Packing formulation which can be solved in linear time. We demonstrate our approach on the virtual prototype of a next-generation industrial multi-core platform running a multithread MPEG2 deco...
none5siManufacturing and environmental variations cause timing errors that are typically avoided by ...
Power and energy consumption, today essential in all types of systems, can be reduced by scaling the...
In this paper, we focus on joint energy and performance optimization for streaming applications on m...
none6The impact of variability on sub-45nm CMOS multimedia platforms makes hard to provide applicati...
none5noAbstract Sub-50nm CMOS technologies are affected by significant variability which causes pow...
ISBN 978-1-4577-1053-7International audienceThe advent of the Deep Submicron technology opens the wa...
Streaming applications have become increasingly important and widespread,with application domains ra...
none3siWorkload allocation in embedded multicore platforms is an increasing challenging issue due to...
Multicore platforms are characterized by increasing variability and aging effects which imply hetero...
Abstract—Dynamic voltage scaling (DVS) is a widely ap-plied power management mechanism in real-time ...
As technology scales, the impact of process variation on the maximum supported frequency (FMAX) of i...
As technology scales, the impact of process variation on the maximum supported frequency (FMAX) of i...
Abstract—As technology scales, the impact of process variation on the maximum supported frequency (F...
In this article, we focus on solving the energy optimization problem for real-time streaming applica...
A bs tr act —As t echnology s cales, t he impact of proces s variat ion on the maximum supported fre...
none5siManufacturing and environmental variations cause timing errors that are typically avoided by ...
Power and energy consumption, today essential in all types of systems, can be reduced by scaling the...
In this paper, we focus on joint energy and performance optimization for streaming applications on m...
none6The impact of variability on sub-45nm CMOS multimedia platforms makes hard to provide applicati...
none5noAbstract Sub-50nm CMOS technologies are affected by significant variability which causes pow...
ISBN 978-1-4577-1053-7International audienceThe advent of the Deep Submicron technology opens the wa...
Streaming applications have become increasingly important and widespread,with application domains ra...
none3siWorkload allocation in embedded multicore platforms is an increasing challenging issue due to...
Multicore platforms are characterized by increasing variability and aging effects which imply hetero...
Abstract—Dynamic voltage scaling (DVS) is a widely ap-plied power management mechanism in real-time ...
As technology scales, the impact of process variation on the maximum supported frequency (FMAX) of i...
As technology scales, the impact of process variation on the maximum supported frequency (FMAX) of i...
Abstract—As technology scales, the impact of process variation on the maximum supported frequency (F...
In this article, we focus on solving the energy optimization problem for real-time streaming applica...
A bs tr act —As t echnology s cales, t he impact of proces s variat ion on the maximum supported fre...
none5siManufacturing and environmental variations cause timing errors that are typically avoided by ...
Power and energy consumption, today essential in all types of systems, can be reduced by scaling the...
In this paper, we focus on joint energy and performance optimization for streaming applications on m...