MEMS-based storage is an emerging nonvolatile secondary storage technology. It promises high performance, high storage density, and low power consumption. With fundamentally different architectural designs from magnetic disk, MEMS-based storage exhibits unique two-dimensional positioning behaviors and efficient power state transitions. We model these low-level, device-specific properties of MEMS-based storage and present request scheduling algorithms and power management strategies that exploit the full potential of these devices. Our simulations show that MEMS-specific device management policies can significantly improve system performance and reduce power consumption. © 2006 ACM
An emerging storage technology, called MEMS-based storage, promises nonvolatile storage devices with...
For decades the RAM-to-disk memory hierarchy gap has plagued computer architects. An exciting new st...
Power dissipation by storage systems in mobile comput-ers accounts for a large percentage of the pow...
MEMS-based storage is an emerging nonvolatile secondary storage technology. It promises high perform...
MEMS-based storage is an emerging nonvolatile secondary storage technology. It promises high perform...
Abstract: "MEMS-based storage devices promise significant performance, reliability, and power improv...
MEMS-based storage devices promise significant performance, reliability, and power improvements rela...
MEMS-based storage devices promise signicant performance, reliability, and power improvements relati...
MEMS-based storage devices promise signicant performance, reliability, and power improvements relati...
Abstract: "For decades the RAM-to-disk memory hierarchy gap has plagued computer architects. An exci...
As an emerging nonvolatile secondary storage technology, MEMS-based storage exhibits several desirab...
Power dissipation by storage systems in mobile computers accounts for a large percentage of the powe...
MEMS-based storage is an interesting new technology that promises to bring fast, non-volatile, mass ...
Power dissipation by storage systems in mobile computers accounts for a large percentage of the powe...
Non-volatile storage technologies such as flash memory, Magnetic RAM (MRAM), and MEMS-based storage ...
An emerging storage technology, called MEMS-based storage, promises nonvolatile storage devices with...
For decades the RAM-to-disk memory hierarchy gap has plagued computer architects. An exciting new st...
Power dissipation by storage systems in mobile comput-ers accounts for a large percentage of the pow...
MEMS-based storage is an emerging nonvolatile secondary storage technology. It promises high perform...
MEMS-based storage is an emerging nonvolatile secondary storage technology. It promises high perform...
Abstract: "MEMS-based storage devices promise significant performance, reliability, and power improv...
MEMS-based storage devices promise significant performance, reliability, and power improvements rela...
MEMS-based storage devices promise signicant performance, reliability, and power improvements relati...
MEMS-based storage devices promise signicant performance, reliability, and power improvements relati...
Abstract: "For decades the RAM-to-disk memory hierarchy gap has plagued computer architects. An exci...
As an emerging nonvolatile secondary storage technology, MEMS-based storage exhibits several desirab...
Power dissipation by storage systems in mobile computers accounts for a large percentage of the powe...
MEMS-based storage is an interesting new technology that promises to bring fast, non-volatile, mass ...
Power dissipation by storage systems in mobile computers accounts for a large percentage of the powe...
Non-volatile storage technologies such as flash memory, Magnetic RAM (MRAM), and MEMS-based storage ...
An emerging storage technology, called MEMS-based storage, promises nonvolatile storage devices with...
For decades the RAM-to-disk memory hierarchy gap has plagued computer architects. An exciting new st...
Power dissipation by storage systems in mobile comput-ers accounts for a large percentage of the pow...