DocumentCode
761069
Title
Update - Mixing Memory To Speed Solid-State Drives
Author
Boyd, Josef
Volume
45
Issue
7
fYear
2008
fDate
7/1/2008 12:00:00 AM
Firstpage
15
Lastpage
15
Abstract
The pricey MacBook Air you covet, with its small, lightweight, shock-resistant solid- state drive (SSD), may have a secret. Despite their advantages, solid-state drives suffer not just from enormous price tags but also from slow performance during certain key operations. Now Korean engineers report that through a clever mix of two types of memory, they can give solid- state drives a boost without also jacking up their price. Unlike a traditional hard-disk drive, which can write new data directly over recorded data, the NAND flash memory that makes up solid-state drives requires free memory space in which to write. That´s usually not a problem when you have to write large chunks of sequential data, such as a video clip. But it is a problem when you have to make frequent small additions and changes to existing data. If, for instance, you need to update a file, the original data must be copied to a fresh memory block so that the first block can be erased. The new data can then be merged with the original and written back to the first block.
Keywords
NAND circuits; ferroelectric storage; flash memories; random-access storage; storage management; FRAM; NAND flash memory; ferroelectric RAM; memory block; memory space; sequential data; shock-resistant solid-state drive; slow performance; Random access memory; Solid state circuits;
fLanguage
English
Journal_Title
Spectrum, IEEE
Publisher
ieee
ISSN
0018-9235
Type
jour
DOI
10.1109/MSPEC.2008.4547495
Filename
4547495
Link To Document