Google| Subject | Re: Adobe's Low hanging .... ? |
| From | Eric Stevens |
| Date | 08/02/2014 04:40 (08/02/2014 14:40) |
| Message-ID | <hmjot9l9disgkau627usbhlc76v9jmk3u6@4ax.com> |
| Client | |
| Newsgroups | rec.photo.digital |
| Follows | Whisky-dave |
rOn Tue, 29 Jul 2014 03:34:32 -0700 (PDT), Whisky-dave <whisky.dave@gmail.com>wrote:
Whisky-dave--- snip ---
On Friday, 25 July 2014 20:20:43 UTC+1, nospam wrote:nospam
In article <40329815-ff18-4025-b57c-947c76b34a17@googlegroups.com>,
Whisky-dave <whisky.dave@gmail.com>wrote:
From a new Rambus patent application http://tinyurl.com/lv23mdeWhisky-daveWhisky-davenospam
The good SSDs have similar life spans to HDDs.
actually much better than hd.
In theory and as yet unproven.
BACKGROUND
[0001] Nonvolatile memory can retain stored information without the continual requirement of short-interval refresh operations, i.e., such that memory contents can be retained in the absence of external power for at least as long as typical on/off times of electronic devices; for these reasons, nonvolatile memory can save power, enable new applications and further extend functionality of portable devices.
[0002] To date, one of the most cost-effective forms of nonvolatile memory is flash memory, which unfortunately suffers from use-based degradation. That is to say, flash memory in particular eventually loses its ability to retain information for any length of time, with current expected lifetime being about 10,000-100,000 read and write cycles. It is believed that one primary cause of this life cycle wear is damage to the oxide layers in these devices from the formation of traps that arise under the influence of high electromagnetic fields used in programming ("setting") and erasing ("resetting") of device memory cells. Although the physics associated with trap formation are not precisely understood, it is believed that these traps are the result of precursors, which form and develop over short periods of time to ultimately become permanent. Life cycle wear is a significant limitation for nonvolatile memory, and has generally inhibited application of flash memory in environments calling for high read and write turnover (e.g., main memory for portable computers).
[0003] A need exists for ways of minimizing this damage, so as to extend the useful life of nonvolatile memory, reduce maintenance, and enable new applications. The present invention satisfies these needs and provides further, related advantages.>> --
Regards,
Eric Stevens
07/10/2014-
