[[abstract]]This paper presents a system-level power management technique for power saving of event-driven applications. We present a new predictive system-shutdown method to exploit sleep mode operations for power saving. We use an exponential-average approach to predict the upcoming idle period. We introduce two mechanisms, prediction-miss correction and pre-wakeup, to improve the hit ratio and to reduce the delay overhead. Experiments on four different event-driven applications show that our proposed method achieves high hit ratios in a wide range of delay overheads, which results in a high degree of power saving with low delay penalties.[[fileno]]2030214030009[[department]]資訊工程學
Power Management policies aim at reducing the amount of energy consumed by battery operated systems,...
[[abstract]]New embedded systems offer rich power management features in the form of multiple operat...
Energy harvesters are widely used to power wireless sensor systems, but the produced power is genera...
[[abstract]]This paper presents a system-level power management technique for energy saving of event...
Energy consumption is one of the major issues for modern embedded systems. Early, power saving appro...
The power consumption of supercomputers is a major challenge for system owners, users, and society. ...
Energy consumption is a major concern for designers of embedded devices. Especially for battery oper...
Energy and power consumption are prominent issues in today’s supercomputers and are foreseen as a li...
Energy and power consumption are prominent issues in today’s supercomputers and are foreseen as a li...
This paper presents a new approach for power reduction by taking a global, software-centric view. It...
International audienceCurrent large-scale systems, like datacenters and supercomputers, are facing a...
International audienceThe paper1 describes a dynamic power management (DPM) strategy independent fro...
Abstract. An system-level power management technique for massively distributed wireless microsensor ...
The resource closure operator is a new concept within autonomic computing that differs from other ap...
Power consumption is an essential factor that worsens the performance and costs of today and future ...
Power Management policies aim at reducing the amount of energy consumed by battery operated systems,...
[[abstract]]New embedded systems offer rich power management features in the form of multiple operat...
Energy harvesters are widely used to power wireless sensor systems, but the produced power is genera...
[[abstract]]This paper presents a system-level power management technique for energy saving of event...
Energy consumption is one of the major issues for modern embedded systems. Early, power saving appro...
The power consumption of supercomputers is a major challenge for system owners, users, and society. ...
Energy consumption is a major concern for designers of embedded devices. Especially for battery oper...
Energy and power consumption are prominent issues in today’s supercomputers and are foreseen as a li...
Energy and power consumption are prominent issues in today’s supercomputers and are foreseen as a li...
This paper presents a new approach for power reduction by taking a global, software-centric view. It...
International audienceCurrent large-scale systems, like datacenters and supercomputers, are facing a...
International audienceThe paper1 describes a dynamic power management (DPM) strategy independent fro...
Abstract. An system-level power management technique for massively distributed wireless microsensor ...
The resource closure operator is a new concept within autonomic computing that differs from other ap...
Power consumption is an essential factor that worsens the performance and costs of today and future ...
Power Management policies aim at reducing the amount of energy consumed by battery operated systems,...
[[abstract]]New embedded systems offer rich power management features in the form of multiple operat...
Energy harvesters are widely used to power wireless sensor systems, but the produced power is genera...