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Fewer reasons remaining against SSD adoption

Limited write endurance is one of the factors that detractors bring up with regards to solid state drives (SSDs). Most NAND flash chips using multi-level cell (MLC)technology in SSDs have a write endurance of around 10,000 cycles. That isn't as great a problem in SSDs greater than 120GB that use wear-leveling technology, but smaller sized SSDs have less capacity and will reach the upper limit much quicker.

That issue is why almost all SSDs aimed at the corporate and enterprise market use Single Level Cell flash chips, which typically have a write endurance around the 100,000 cycle mark. These include Intel's X25-E, OCZ's Vertex EX and Agility EX series, and Super Talent's MasterDrive RX series.

Micron Technology is one of the key partners in IM Flash Tech along with Intel Corporation. IMFT produces the 34nm NAND flash used in Intel's second generation X25-M SSDs using 2-bit-per-cell MLC chips. Micron and IMFT have been working on improving the write endurance of their NAND chips, and they have now reached a breakthrough.

“By leveraging our mature 34nm NAND process, Micron has developed Enterprise NAND products that support customers’ high-endurance requirements. These products ensure that enterprise organizations have a highly reliable NAND flash solution – be it MLC or SLC – for design into the broader enterprise storage platform,” said Brian Shirley, Vice President of Micron’s memory group.

The company’s new 32Gb MLC Enterprise NAND devices achieve an impressive 30,000 write cycles. They are also introducing a 16Gb SLC Enterprise NAND device that achieves 300,000 write cycles. The new chips also support the ONFI 2.1 synchronous interface, making them easier to integrate into new products.

Both of these new chips are built on the 34nm process which IMFT introduced last year, and can be configured into multi-die, single packages supporting densities of up to 32GB for MLC NAND and 16GB for SLC NAND.

Micron is now sampling its Enterprise NAND products with customers and controller manufacturers, and is expected to enter volume production at the beginning of 2010.



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RE: SSD
By PublixE on 10/19/2009 5:32:31 PM , Rating: 1
From a previous poster I thought this quote would suffice...

quote:
Mr Thickety Thickhead from Thicksville Thicksylvania


--------------------------------------------

quote:
Or did you guys just see a fancy new tech and jumped on it without thinking?


You probably have no idea what they do anyways. Instead of jumping to conclusions (without thinking...) and insulting him/her, you could have at least made a post worth reading.

Believe it or not - there are some people who require EVERY bit of speed - whether it be ten SSD's in RAID 0 or Core I7 975 or both. Whatever it may be - some people require every bit of performance they can get (think Pixar with their movies or in another field - advanced scientific calculations).

Yes - we really should keep our Quantum BigFoot Hard drives - screw progress, or any other new fangled device, right?

/ Rant

quote:
Micron is now sampling its Enterprise NAND products with customers and controller manufacturers, and is expected to enter volume production at the beginning of 2010.


Hopefully these will trickle to consumer SSD's just as quickly!


RE: SSD
By MatthiasF on 10/19/09, Rating: 0
RE: SSD
By FaaR on 10/20/2009 6:28:07 AM , Rating: 4
Whatever points you're trying to make gets drowned in the noise of your needless and unprovoked hostility and rudeness. If you'd behave like a normal person, more people would listen to what you have to say and judge your words more on their own merits, rather than the way you say them.

Also, most files may be larger than 128kb, but any person who actually knows anything about disk performance know that access time is indeed the vastly more important figure in almost every situation. Why else do you think enterprise drive arrays are comprised of relatively low-capacity high spindle speed drives? It's to cut down on read/write latency, of course.

Most disk accesses are on the order of 32kb-ish per I/O request, not many megabytes, and a HDD reads or writes that amount in (for argument's sake) a microsecond. Problem is, it takes a thousand times longer or more to actually seek to that sector and wait for the heads to settle... That's the HDD's achilles heel.

If all you do is read or write the occasional large or small file, then neither access time OR transfer speed is really all that important, because even a large file will be transferred quickly with any reasonably modern harddrive (within one or a few seconds at most, typically), and this very slight delay is tiny tiny compared to the full workday.

However, if the system experiences heavy disk activity, then the picture changes noticably with access time dominating hugely unless all you do is simple linear reading/writing (such as video editing, for example). I can just use myself as an example, my main rig starts up roughly 15 apps on bootup (and a multitude of background services and whatnot). With a standard HDD, it took about half a minute if not more of waiting before disk activity settled down to a level where the PC became responsive. When I switched to an Intel SLC SSD, the PC is fully responsive about 2-3 seconds after typing in the password. Basically, I can use the system normally by the time I've moved my hand from the keyboard to the mouse upon logging in!

Hybrid harddrives get ignored mostly because they're neither fish nor fowl, but rather a half-assed half-measure that does not fully share the advantages of either tech they try to combine. It's not nearly as fast as a dedicated SSD, and at the same time not as cheap as a standard harddrive. Add the complexities of managing the flash cache as best as possible, wear leveling complications, more parts that can fail and so on and then the difficulties of trying to explain the benefits of your new hybrid harddrive to a mostly ignorant herd of customers (consumers as well as enterprise), and I think you too will see how HDD makers find the extra expense in hybrid R&D not really worth the bother...


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