ImFlashTechnologies
Latest
Intel ships SSD 335 as its first drive with 20nm flash, asks just a little to stay cutting-edge
Don't panic, SSD 330 owners: your drive hasn't been immediately rendered obsolete. Intel's new SSD 335 is just the first shipping drive using the company's 20-nanometer flash memory. The shrink down from 25nm is primarily a technological showcase that proves the more scalable, hi-K/metal gate borrowed from processors can fly in NAND-based storage. Buyers will still get the same 500MB/s read speeds and 450MB/s writes in a 2.5-inch, SATA 6Gbps drive that will stuff neatly into many desktops and laptops. Intel is shy about pricing for the lone 240GB variant on offer, although a quick scan finds it selling for a slight premium over its ancestor, at $210. While that's still frugal in this day and age, we're guessing that Intel's vow to "pass along the savings" with the SSD 335 won't truly be realized without a reseller price drop or two.
Intel, Micron unveil first 128-gigabit flash chip, provide double the data density
Realign the data and the previous 32- and 64-gigabit roadblocks to flash storage disappear. Today, Intel and Micron announced the first 128-gigabit NAND flash chip. The chip, which was created through the companies' joint IM Flash Technologies venture, is smaller than a fingertip, created through a 20 nanometer manufacturing process and is capable of 333 megatransfers per second with the option of stacking as many as eight chips on top of each other. What makes the new NAND unique is its planar structure that allows individual memory cells to scale much smaller than before. When combined with a Hi-K/metal gate combo to keep the power leaks to a minimum, presto, you've got flash memory denser than your mother-in-law's fruitcake. Mass production of the 128Gb chips isn't due until the first half of 2012, but you can get a more in-depth intro to the future of flash right now in the PR below.
Intel swings 25nm factory doors open for a tour de fab
Intel and Micron's recent announcement that their collective superhero body, appropriately named IM Flash, is sampling 25nm flash chips has been accompanied with a whirlwind tour of their Utah production facilities for a few lucky journalists. PC Perspective bring us the atmospheric photo above, along with some videos, as they prance about one of the most hallowed (and cleanest) environments known to gadget lovers. Apart from the die shrink, the lads also discuss Intel's reputed plans for a G3 SSD refresh some time "later this year" with snappier controllers onboard, which apparently was echoed by Micron who also intend to pump out faster processors with their SSD products. While you wait for all that to happen, hit the source link to find out how and where the stuff that gets put inside SSDs is made.
Intel and Micron start 25nm flash production; SSDs to get cheap, huge
Intel and Micron have a history of pushing the state-of-the-art in flash storage -- their joint venture IMFT was responsible for the first sub-40nm NAND flash and bringing it to production -- and it looks they've done it again: IMFT is now sampling two-bits-per-cell 25nm NAND, which will eventually push prices down and capacities up when volume production begins in Q2. We'll have to see how pricing works out -- 25nm is something like twice the storage density per dollar, so we're hopeful -- but at the very least Intel's third-gen X25-M will come in 160GB, 320GB, and 600GB sizes when it launches in Q4 using these new chips. Yeah, we're going to want one. AnandTech has the full breakdown, hit the read link for more.
Intel, Micron start churning out 34nm, 32Gb NAND Flash chips
Intel and Micron's subsidiary IM Flash Technologies first announced its first-of-its-kind 34nm NAND Flash memory back in May of this year and, as promised, it's now finally followed through on things pushed 'em into mass production. The chip's themselves are 32 gigabit multi-level cell chips, and can hold 4GB of memory on their own, or be stacked on top of each other in a standard 48-lead thin small-outline package (TSOP) to hold up to 64GB. That, the companies say, will not only allow for increased storage in small form factor devices, but less expensive solid state drives as well, given the reduced manufacturing costs. They're apparently still a little ways away from finding their way into some actual products, however, with the companies only going so far as to say that the first samples are on track for early 2009[Via Electronista]
Intel and Micron produce first sub-40nm NAND device
Just a few months back, we all gave SanDisk a round of golf claps for moving towards 43-nanometer NAND production. Fast forward to today, and that "feat" doesn't look so mighty anymore. Intel and Micron have just announced the industry's first sub-40nm NAND flash memory device, the 34nm 32 gigabit multi-level cell chip. The process technology was collaboratively developed by the two firms' joint venture, IM Flash Technologies (IMFT)," and there's nary a hint of shame when they trumpet that this is the "smallest NAND process geometry on the market." Sample shipments are expected to leave the dock in June, while mass production should get going sometime in the second half of this year. Somehow, we get the impression this won't stay on top for long.
Intel and Micron develop "world's fastest" NAND -- kiss SSD random write lag goodbye
How do 200MBps reads and 100MBps writes in a storage device sound to you? Pretty sweet if you ask us. That's the upper spec for Micron's new highspeed 8Gb (Gigabit not Gigabyte, kids) SLC NAND co-developed with Intel on a 50-nm processes node. Once slapped together in an SSD, you can expect performance to easily outshine any existing SSD or mechanical drive on the market while easily kicking the SSD bugbear -- random read/writes -- to the curb. The rub, of course, is that SLC NAND is more expensive than MLC so you can expect to pay dearly for that performance. Watch for the speedy Micron flash to pop in cellphones, camcorders, SSDs (and pretty much every portable consumer electronics device out there) sometime in the second half of 2008 -- sampling now to manufacturers.
