The design for a new type of non-volatile mass storage memory is discussed. This new design, based on scanning probe techniques, combines the low volume and power consumption of the FlashRAM, with the high capacity of the hard disk. The small form factor of the device makes it an excellent candidate for mass storage in handheld embedded systems. Its hierarchical architecture allows us to make a trade-off between data-rate, access time and power consumption. The power consumption scales linearly with the desired data-rate, and is expected to be lower than what can be achieved with competing technologies
National audienceMemories are currently a real bottleneck to design high speed, low area and energy-...
In recent years, CMOS-based conventional memory technologies including SRAM, DRAM, and Flash memori...
Because of its small form factor, high capacity, and expected low cost, MEMS-based storage is a suit...
The design for a new type of non-volatile mass storage memory is discussed. This new design, based o...
Scanning probe-based memories have demonstrated their ability to store data at ultra-high densities,...
Non-volatile storage technologies such as flash memory, Magnetic RAM (MRAM), and MEMS-based storage ...
Multilevel cell storage allows two or more bits to be stored in one cell, thus reducing almost 50% o...
Embedded memories play a pivotal role in VLSI systems to support the increasing need of data storage...
Non-volatile storage technologies such as flash memory, Magnetic RAM (MRAM), and MEMS-based storage ...
[[abstract]]Non-volatile mass data storage using MEMS-based actuation and probe-based read/write has...
This paper describes the development of a micro media actuator (MMA) for probe-based mass data stora...
Abstract: "For decades the RAM-to-disk memory hierarchy gap has plagued computer architects. An exci...
Most of the current applications of electronics require non-volatile memories, which can keep stored...
Magnetic memory technologies are very promising candidates to be universal memory due to its good sc...
MEMS-based storage is an interesting new technology that promises to bring fast, non-volatile, mass ...
National audienceMemories are currently a real bottleneck to design high speed, low area and energy-...
In recent years, CMOS-based conventional memory technologies including SRAM, DRAM, and Flash memori...
Because of its small form factor, high capacity, and expected low cost, MEMS-based storage is a suit...
The design for a new type of non-volatile mass storage memory is discussed. This new design, based o...
Scanning probe-based memories have demonstrated their ability to store data at ultra-high densities,...
Non-volatile storage technologies such as flash memory, Magnetic RAM (MRAM), and MEMS-based storage ...
Multilevel cell storage allows two or more bits to be stored in one cell, thus reducing almost 50% o...
Embedded memories play a pivotal role in VLSI systems to support the increasing need of data storage...
Non-volatile storage technologies such as flash memory, Magnetic RAM (MRAM), and MEMS-based storage ...
[[abstract]]Non-volatile mass data storage using MEMS-based actuation and probe-based read/write has...
This paper describes the development of a micro media actuator (MMA) for probe-based mass data stora...
Abstract: "For decades the RAM-to-disk memory hierarchy gap has plagued computer architects. An exci...
Most of the current applications of electronics require non-volatile memories, which can keep stored...
Magnetic memory technologies are very promising candidates to be universal memory due to its good sc...
MEMS-based storage is an interesting new technology that promises to bring fast, non-volatile, mass ...
National audienceMemories are currently a real bottleneck to design high speed, low area and energy-...
In recent years, CMOS-based conventional memory technologies including SRAM, DRAM, and Flash memori...
Because of its small form factor, high capacity, and expected low cost, MEMS-based storage is a suit...