Energy optimization is a critical design concern for embedded systems. Combining Dvfs+
Dpm is considered as one preferable technique to reduce energy consumption. There have …

Energy saving and system reliability are two crucial issues for designing modern
multiprocessor systems. There has been reliability-aware power management with dynamic …

The increasing computing demands of autonomous driving applications have driven the
adoption of multicore processors in real-time systems, which in turn renders energy …

In mixed-criticality scheduling, the widely adopted mode-switch scheme assumes that both
high-and low-criticality tasks are schedulable when no tasks overrun (normal mode) and all …

We present a scheme for monitoring activation patterns of multiple tasks in mixed-criticality
real-time systems. Unlike previous approaches, which enforce a single pre-defined …

Designing mixed criticality real-time systems raises numerous challenges. In particular,
reducing their energy consumption while enforcing their schedulability is yet an open …

The modeling and analysis of real-time applications focus on the worst-case scenario
because of their strict timing requirements. However, many real-time embedded systems …

Energy consumption is an important concern when designing embedded systems. Static
consumption now dominates dynamic consumption as the semiconductor technology moves …

This paper investigates fault tolerance and dynamic voltage scaling (DVS) in hard real-time
systems. The authors present quasi-static task scheduling algorithms that consist of offline …

In mixed-criticality scheduling, the widely assumed mode-switch scheme assumes that both
high-and low-criticality tasks are schedulable when no tasks overrun (normal mode) and all …