Abstract—As technology scales, the impact of process variation on the maximum supported frequency (FMAX) of individual cores in a MPSoC becomes more pronounced. Task allocation without variation-aware performance analysis can result in a significant loss in yield, defined as the number of manufactured chips satisfying the application timing requirement. We propose variation-aware task allocation for real-time streaming applica-tions modeled as task graphs. Our solutions are primarily based on the throughput requirement, which is the most important timing requirement in many real-time streaming applications. The three main contributions of this paper are: 1) Using data flow graphs that are well-suited for modeling and analysis of real-time s...
This article studies the scheduling of real-time streaming applications on multiprocessor systems-on...
This work addresses the new problem of timing variation-aware (TV) task scheduling and binding (TSB)...
The design of new embedded systems is getting more and more complex as more functionality is integra...
A bs tr act —As t echnology s cales, t he impact of proces s variat ion on the maximum supported fre...
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...
In nanometer technology regime, process variation (PV) causes uncertainties in the processor frequen...
Abstract — As technology scales, the delay uncertainty caused by process variations has become incre...
none5noAbstract Sub-50nm CMOS technologies are affected by significant variability which causes pow...
Abstract—Variability in the manufacturing process results in variation in the maximum supported freq...
Embedded streaming applications specified using parallel Models of Computation (MoC) often contain a...
none6siMultimedia streaming applications running on next-generation parallel multiprocessor arrays i...
This article studies the scheduling of real-time streaming applications on multiprocessor systems-on...
This work addresses the new problem of timing variation-aware (TV) task scheduling and binding (TSB)...
The design of new embedded systems is getting more and more complex as more functionality is integra...
A bs tr act —As t echnology s cales, t he impact of proces s variat ion on the maximum supported fre...
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...
In nanometer technology regime, process variation (PV) causes uncertainties in the processor frequen...
Abstract — As technology scales, the delay uncertainty caused by process variations has become incre...
none5noAbstract Sub-50nm CMOS technologies are affected by significant variability which causes pow...
Abstract—Variability in the manufacturing process results in variation in the maximum supported freq...
Embedded streaming applications specified using parallel Models of Computation (MoC) often contain a...
none6siMultimedia streaming applications running on next-generation parallel multiprocessor arrays i...
This article studies the scheduling of real-time streaming applications on multiprocessor systems-on...
This work addresses the new problem of timing variation-aware (TV) task scheduling and binding (TSB)...
The design of new embedded systems is getting more and more complex as more functionality is integra...