We consider the problem of selecting threshold times to transition a device to low-power sleep states during an idle period. The two-state case in which there is a single active and a single sleep state is a continuous version of the ski-rental problem. We consider a generalized version in which there is more than one sleep state, each with its own power consumption rate and transition costs. We give an algorithm that, given a system, produces a deterministic strategy whose competitive ratio is arbitrarily close to optimal. We also give an algorithm to produce the optimal online strategy given a system and a probability distribution that generatespthe length of the idle period. We also give a simple algorithm that achieves a competitive rat...
This paper addresses a problem of how to determine the optimal auto sleep time when the computer use...
Power Management policies aim at reducing the amount of energy consumed by battery operated systems,...
We consider two devices, which has states ON and OFF. In the ON state, the devices use their full po...
We consider the problem of selecting threshold times to transition a device to low-power sleep state...
We study the online problem of minimizing power consumption in systems with multiple power-saving st...
We study the online problem of minimizing power consumption in systems with multiple power-saving st...
In the continuous power-down problem one considers a device, which has states OFF, ON, and an infini...
A power-down system has an on-state, an off-state, and a finite or infinite number of intermediate s...
We present strategies for "online" dynamic power management (DPM) based on the notion of the competi...
International audienceThis work considers systems with inactivity periods of unknown duration. We st...
We consider a power-down system with two states—“on” and “off”—and a continuous set of power states....
International audienceIn this paper, we investigate network sleep mode schemes for reducing energy c...
International audienceThis article addresses the optimal choice of the waiting period (or timeout) t...
AbstractThis paper addresses a problem of energy reduction on computer systems, namely the problem o...
For the power-down problem one considers a device which has states OFF, ON, and a number of intermed...
This paper addresses a problem of how to determine the optimal auto sleep time when the computer use...
Power Management policies aim at reducing the amount of energy consumed by battery operated systems,...
We consider two devices, which has states ON and OFF. In the ON state, the devices use their full po...
We consider the problem of selecting threshold times to transition a device to low-power sleep state...
We study the online problem of minimizing power consumption in systems with multiple power-saving st...
We study the online problem of minimizing power consumption in systems with multiple power-saving st...
In the continuous power-down problem one considers a device, which has states OFF, ON, and an infini...
A power-down system has an on-state, an off-state, and a finite or infinite number of intermediate s...
We present strategies for "online" dynamic power management (DPM) based on the notion of the competi...
International audienceThis work considers systems with inactivity periods of unknown duration. We st...
We consider a power-down system with two states—“on” and “off”—and a continuous set of power states....
International audienceIn this paper, we investigate network sleep mode schemes for reducing energy c...
International audienceThis article addresses the optimal choice of the waiting period (or timeout) t...
AbstractThis paper addresses a problem of energy reduction on computer systems, namely the problem o...
For the power-down problem one considers a device which has states OFF, ON, and a number of intermed...
This paper addresses a problem of how to determine the optimal auto sleep time when the computer use...
Power Management policies aim at reducing the amount of energy consumed by battery operated systems,...
We consider two devices, which has states ON and OFF. In the ON state, the devices use their full po...