Design of power management mechanisms of hardware components (CPU, memories) in Embedded Systems needs to be performed at OS level to exploit system-level information. Traditional simulation models do not fit well, being too slow to simulate applications with OS-interaction. In this paper we present a high-level simulation framework that extends power state machines to hardware and software components to explore power management policies including OS-level effects faster than traditional approaches
The ongoing trend of increasing computer hardware and software complexity has resulted in the increa...
Abstract—With power becoming a major constraint for mul-tiprocessor embedded systems, it is becoming...
textThe high cost of designing, testing and manufacturing semiconductor chips makes simulation essen...
Design of power management mechanisms of hardware components (CPU, memories) in Embedded Systems nee...
Power dissipation has become one of the most critical factors for the continued development of both ...
[[abstract]]The power dissipation is the concern for SoC designs and embedded systems to extend batt...
International audienceThis paper proposes a method for energy consumption estimation and optimisatio...
Memory accesses account for a large percentage of total power in microprocessor-based embedded syste...
International audienceModern systems-on-a-chip are equipped with power architectures, allowing to co...
Nowadays, heterogeneous system architectures, integrating CPUs and one or more kinds of accelerators...
Paper analysis early in the design cycle is critical for the design of low-power systems. With the m...
In this paper, we present PARTSim, an open-source power/thermal-aware simulator for embedded real-ti...
[[abstract]]The development cost of low-power embedded systems can be significantly reduced by reusi...
This paper presents the modeling of embedded systems with SimBed, an execution-driven simulation tes...
Abstract—Power analysis early in the design cycle is critical for the design of low-power systems. W...
The ongoing trend of increasing computer hardware and software complexity has resulted in the increa...
Abstract—With power becoming a major constraint for mul-tiprocessor embedded systems, it is becoming...
textThe high cost of designing, testing and manufacturing semiconductor chips makes simulation essen...
Design of power management mechanisms of hardware components (CPU, memories) in Embedded Systems nee...
Power dissipation has become one of the most critical factors for the continued development of both ...
[[abstract]]The power dissipation is the concern for SoC designs and embedded systems to extend batt...
International audienceThis paper proposes a method for energy consumption estimation and optimisatio...
Memory accesses account for a large percentage of total power in microprocessor-based embedded syste...
International audienceModern systems-on-a-chip are equipped with power architectures, allowing to co...
Nowadays, heterogeneous system architectures, integrating CPUs and one or more kinds of accelerators...
Paper analysis early in the design cycle is critical for the design of low-power systems. With the m...
In this paper, we present PARTSim, an open-source power/thermal-aware simulator for embedded real-ti...
[[abstract]]The development cost of low-power embedded systems can be significantly reduced by reusi...
This paper presents the modeling of embedded systems with SimBed, an execution-driven simulation tes...
Abstract—Power analysis early in the design cycle is critical for the design of low-power systems. W...
The ongoing trend of increasing computer hardware and software complexity has resulted in the increa...
Abstract—With power becoming a major constraint for mul-tiprocessor embedded systems, it is becoming...
textThe high cost of designing, testing and manufacturing semiconductor chips makes simulation essen...