MEMS-based storage devices should be energy ecient for deployment in mobile systems. Since MEMS-based storage devices have a moving me- dia sled, they should be shut down during periods of inactivity. However, shutdown costs energy, limiting the applicability of aggressive shutdown decisions. The media sled in MEMS-based storage devices is suspended by springs. We introduce a policy that exploits the spring structure to reduce the shut- down energy. As a result, the aggressiveness of the shutdown decisions can be increased, reducing the energy consumption. This report devises analytical models of the shutdown time and energy of this policy
As an emerging nonvolatile secondary storage technology, MEMS-based storage exhibits several desirab...
Abstract—Emerging nanotechnology-based systems encounter new non-functional requirements. This work ...
International audienceLarge scale distributed systems (high performance computing centers, networks,...
Because of its small form factor, high capacity, and expected low cost, MEMS-based storage is a suit...
An emerging storage technology, called MEMS-based storage, promises nonvolatile storage devices with...
Power dissipation by storage systems in mobile comput-ers accounts for a large percentage of the pow...
Power dissipation by storage systems in mobile computers accounts for a large percentage of the powe...
Power dissipation by storage systems in mobile computers accounts for a large percentage of the powe...
For mobile applications, power dissipation is crucial. Compared with diskbased storage, MEMS-based s...
International audienceCurrent large-scale systems, like datacenters and supercomputers, are facing a...
International audienceLarge scale distributed systems are expected to consume huge amounts of energy...
MEMS-based storage is an emerging nonvolatile secondary storage technology. It promises high perform...
The digital era in which we are living today requires our increasing awareness of energy efficiency ...
Abstract: "MEMS-based storage devices promise significant performance, reliability, and power improv...
MEMS-based storage is an emerging non-volatile secondary storage technology. It promises high perfor...
As an emerging nonvolatile secondary storage technology, MEMS-based storage exhibits several desirab...
Abstract—Emerging nanotechnology-based systems encounter new non-functional requirements. This work ...
International audienceLarge scale distributed systems (high performance computing centers, networks,...
Because of its small form factor, high capacity, and expected low cost, MEMS-based storage is a suit...
An emerging storage technology, called MEMS-based storage, promises nonvolatile storage devices with...
Power dissipation by storage systems in mobile comput-ers accounts for a large percentage of the pow...
Power dissipation by storage systems in mobile computers accounts for a large percentage of the powe...
Power dissipation by storage systems in mobile computers accounts for a large percentage of the powe...
For mobile applications, power dissipation is crucial. Compared with diskbased storage, MEMS-based s...
International audienceCurrent large-scale systems, like datacenters and supercomputers, are facing a...
International audienceLarge scale distributed systems are expected to consume huge amounts of energy...
MEMS-based storage is an emerging nonvolatile secondary storage technology. It promises high perform...
The digital era in which we are living today requires our increasing awareness of energy efficiency ...
Abstract: "MEMS-based storage devices promise significant performance, reliability, and power improv...
MEMS-based storage is an emerging non-volatile secondary storage technology. It promises high perfor...
As an emerging nonvolatile secondary storage technology, MEMS-based storage exhibits several desirab...
Abstract—Emerging nanotechnology-based systems encounter new non-functional requirements. This work ...
International audienceLarge scale distributed systems (high performance computing centers, networks,...