For decades, the memory hierarchy access gap has plagued computer architects with the RAM/disk gap widening to about 6 orders of magnitude in 1999. However, an exciting new storage technology based on MicroElectroMechanical Systems (MEMS) is poised to fill a large portion of this performance gap, delivering significant performance improvements and enabling many new types of applications. This research explores the impact MEMS-based storage will have on computer systems. Working closely with researchers building MEMS-based storage devices, we examine the performance impact of several design points. Results from five different applications show that MEMS-based storage can reduce application I/O stall times by 80-99%, with overall performance ...
MEMS-based storage is an emerging non-volatile secondary storage technology. It promises high perfor...
Abstract: "MEMS-based storage devices promise significant performance, reliability, and power improv...
MEMS-based storage devices promise significant performance, reliability, and power improvements rela...
For decades, the memory hierarchy access gap has plagued computer architects with the RAM/disk gap w...
For decades, the memory hierarchy access gap has plagued computer architects with the RAM/disk gap w...
Abstract: "For decades the RAM-to-disk memory hierarchy gap has plagued computer architects. An exci...
MEMS-based storage devices are seen by many as promis-ing alternatives to disk drives. Fabricated us...
For decades the RAM-to-disk memory hierarchy gap has plagued computer architects. An exciting new st...
Non-volatile storage technologies such as flash memory, Magnetic RAM (MRAM), and MEMS-based storage ...
As an emerging nonvolatile secondary storage technology, MEMS-based storage exhibits several desirab...
MEMS-based storage is an interesting new technology that promises to bring fast, non-volatile, mass ...
Non-volatile storage technologies such as flash memory, Magnetic RAM (MRAM), and MEMS-based storage ...
As an emerging non-volatile secondary storage technology, MEMS-based storage exhibits several desira...
As an emerging non-volatile secondary storage technology, MEMS-based storage exhibits several desira...
MEMS-based storage is an emerging nonvolatile secondary storage technology. It promises high perform...
MEMS-based storage is an emerging non-volatile secondary storage technology. It promises high perfor...
Abstract: "MEMS-based storage devices promise significant performance, reliability, and power improv...
MEMS-based storage devices promise significant performance, reliability, and power improvements rela...
For decades, the memory hierarchy access gap has plagued computer architects with the RAM/disk gap w...
For decades, the memory hierarchy access gap has plagued computer architects with the RAM/disk gap w...
Abstract: "For decades the RAM-to-disk memory hierarchy gap has plagued computer architects. An exci...
MEMS-based storage devices are seen by many as promis-ing alternatives to disk drives. Fabricated us...
For decades the RAM-to-disk memory hierarchy gap has plagued computer architects. An exciting new st...
Non-volatile storage technologies such as flash memory, Magnetic RAM (MRAM), and MEMS-based storage ...
As an emerging nonvolatile secondary storage technology, MEMS-based storage exhibits several desirab...
MEMS-based storage is an interesting new technology that promises to bring fast, non-volatile, mass ...
Non-volatile storage technologies such as flash memory, Magnetic RAM (MRAM), and MEMS-based storage ...
As an emerging non-volatile secondary storage technology, MEMS-based storage exhibits several desira...
As an emerging non-volatile secondary storage technology, MEMS-based storage exhibits several desira...
MEMS-based storage is an emerging nonvolatile secondary storage technology. It promises high perform...
MEMS-based storage is an emerging non-volatile secondary storage technology. It promises high perfor...
Abstract: "MEMS-based storage devices promise significant performance, reliability, and power improv...
MEMS-based storage devices promise significant performance, reliability, and power improvements rela...