Static schedules for systems can lead to an inefficient usage of the resources, because the system’s behavior cannot be adapted at runtime. To improve the runtime system performance in current time-triggered Multi-Processor System on Chip (MPSoC), a dynamic reaction to events is performed locally on the cores. The effects of this optimization can be increased by coordinating the changes globally. To perform such global changes, a consistent view on the system state is needed, on which to base the adaptation decisions. This paper proposes such an interactive consistency protocol with low impact on the system w.r.t. latency and overhead. We show that an energy optimizing adaptation controlled by the protocol can enable a system to save up to ...
Modern embedded systems increasingly require adaptive run-time management of available resources. On...
The adaptive processing approach improves microprocessor energy efficiency by dynamically tuning maj...
As technology scales, the impact of process variation on the maximum supported frequency (FMAX) of i...
Static schedules for systems can lead to an inefficient usage of the resources, because the system’s...
International audienceMulti-processor System-on-Chips (MPSoCs) have become increasingly popular over...
Today's multi-processor system-on-chip (MPSoC) systems increasingly have to deal with dynamically ch...
Abstract—The computing engines of many current applications are powered by MPSoC platforms, which pr...
The ever-increasing performance demand of modern embedded applications drives the development of mul...
The static resource allocation in time-triggered systems offers significant benefits for the safety ...
99 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2002.The second part of the thesis ...
Self-adaptivity is becoming a key feature of modern embedded systems to meet performance and power c...
Today mixed-criticality systems are used in most industrial domains, because of their integration ad...
none5noAbstract Sub-50nm CMOS technologies are affected by significant variability which causes pow...
Many distributed real-time systems face the challenge of dynamically maximizing system utility in re...
Many distributed real-time systems face the challenge of dynamically maximizing system utility and m...
Modern embedded systems increasingly require adaptive run-time management of available resources. On...
The adaptive processing approach improves microprocessor energy efficiency by dynamically tuning maj...
As technology scales, the impact of process variation on the maximum supported frequency (FMAX) of i...
Static schedules for systems can lead to an inefficient usage of the resources, because the system’s...
International audienceMulti-processor System-on-Chips (MPSoCs) have become increasingly popular over...
Today's multi-processor system-on-chip (MPSoC) systems increasingly have to deal with dynamically ch...
Abstract—The computing engines of many current applications are powered by MPSoC platforms, which pr...
The ever-increasing performance demand of modern embedded applications drives the development of mul...
The static resource allocation in time-triggered systems offers significant benefits for the safety ...
99 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2002.The second part of the thesis ...
Self-adaptivity is becoming a key feature of modern embedded systems to meet performance and power c...
Today mixed-criticality systems are used in most industrial domains, because of their integration ad...
none5noAbstract Sub-50nm CMOS technologies are affected by significant variability which causes pow...
Many distributed real-time systems face the challenge of dynamically maximizing system utility in re...
Many distributed real-time systems face the challenge of dynamically maximizing system utility and m...
Modern embedded systems increasingly require adaptive run-time management of available resources. On...
The adaptive processing approach improves microprocessor energy efficiency by dynamically tuning maj...
As technology scales, the impact of process variation on the maximum supported frequency (FMAX) of i...