NAND Flash Shrinks To 15/16nm Process, Further Driving Prices Down 60
Lucas123 writes: Both Micron and Toshiba are producing NAND flash memory based on 15 and 16 nanometer process technology, which reduces die area over a 16GB MLC chip by 28% compared with previous die technology. Additionally, Micron announced its upcoming consumer USB flash drives and internal SSDs will also use triple-level cell NAND flash (a technology expected to soon dominate the market) storing three bits instead of two for the first time and further reducing production cost. The advancement in NAND flash density has been driving SSD pricing down dramatically over the past few years. In fact, over the last year, the average price for 128GB and 256GB SSDs have dropped to $50 and $90, respectively, for system manufacturers, according to DRAMeXchange. And prices for consumers have dropped to an average of $91.55 for a 128GB SSD and $164.34 for a 256GB SSD.
single, multi, triple (Score:1)
Whadayamean, "for the first time"? We've had three bits per cell for a while.
Note how the prices sink while the fabs get ever more expensive. Can't be much margin left in that game. Also note that the number of available cycles per cell drops with the process density AND with the number of bits per cell. You can try and paper over it with ever more clever wear leveling tricks, but the basic problem remains the same: It's not good for data longevity.
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Whadayamean, "for the first time"? We've had three bits per cell for a while.
Indeed. Samsung has had TLC flash (3 bits or 8 levels) since at least 2012.
Note how the prices sink while the fabs get ever more expensive. Can't be much margin left in that game.
The fab cost goes up, but as the density increases, so does the capacity of the fab. So they make it up on volume.
Also note that the number of available cycles per cell drops with the process density AND with the number of bits per cell.
In general, it is better to have dense, yet unreliable, storage, and then fix the reliability problems with higher level error correction and redundancy. This will often give you more capacity, and more overall reliability.
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Or, you can do things better, and move to vertically-stacked, 3D NAND, like Samsung. Each individual NAND chip is built on a larger process (28 nm I think) providi
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Die shrinks will be coming to 3D NAND too. It's true that the flash cell longevity decreases as the process tech gets "smaller" but the increase in density makes it worth it. Any problems are mitigated with advanced wear leveling available in modern controllers, and increased provisioning of spare cells.
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There are always tricks to getting more bits stuffed in a cell. Each bit doubles the capacity, so (for example) if one bit causes more errors per cell, with ECC, it might be a net win.
I do agree, eventually moving to 3D NAND storage is going to be a must, but shrinking dies is another way to increase capacity at this point and time.
This is how Moore's law keeps up. Once one technology starts having diminishing returns, another can be used to keep things going.
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Thanks, I was still thinking crypto keys, thus the brain fart.
It definitely hits diminishing returns, but it is a way to gain capacity, although where it will hit a wall is when the losses due to ECC are more than the capacity gained.
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The fab cost goes up, but as the density increases, so does the capacity of the fab. So they make it up on volume.
Are NAND fabs much easier than IC fabs at the same mask size? There are companies offering interesting IC's that are hampered by their 60/90/130nm parts, and it seems interesting that the profit is falling out of NAND while those are still on the larger fabs.
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Doesn't improved density and lower cost also mean that they can just add more spare cells to make up for any reliability issues?
Obviously the math has to work out in terms of the reliability decline being smaller than the increases in density and cost/GB.
Re:single, multi, triple (Score:4, Informative)
Reading comprehension fail.
The sentence clearly states that Micron will be using TLC for the first time. Not that the SSD industry will be using TLC for the first time ever.
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Whadayamean, "for the first time"? We've had three bits per cell for a while.
Note how the prices sink while the fabs get ever more expensive. Can't be much margin left in that game. Also note that the number of available cycles per cell drops with the process density AND with the number of bits per cell. You can try and paper over it with ever more clever wear leveling tricks, but the basic problem remains the same: It's not good for data longevity.
All the belly-aching we read about all the time about reliability, data retention, wear leveling, et al - are due to the multi-bit per cell - be it 2, 3, 4 or whatever. When you have only 2 voltage levels - VIH, VIL, VOH and VOL where V*H == VDD and V*L == 0, it's easier to get more reliable memory. Note that with each of the shrinks that we've been having, internal voltage levels too have been dropping - from 5V to 3.3V to 1.8V to.... where is it now? In other words, it's far more difficult to have fin
Cheaper than that (Score:4, Insightful)
I just picked up a Samsung 850 EVO 500GB for $149, and prices could be driven down further in the coming months as 32-layer and 48-layer chips show up.
It's getting harder to justify spinning disks at home, especially as the traditional data hogs (backups, videos) are largely moving to 'the cloud'.
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I got the same deal, it was on eBay a week or two ago, actually offered by NewEgg.
I just upgraded my son's boot drive from an Adata 120GB to this EVO drive. He's very happy with it so far. He's been doing more game and mod development with his "team" (lots of friends around the world) and the 120GB for the boot wasn't cutting it, even with a large data drive.
I had been considering only upgrading him to 240GB, but at the $0.30/GB price point, I couldn't justify a stopgap measure.
My own PC has 2x256GB Samsung
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It is pretty incredible how the larger capacity SSDs have come down in price. $149 is in the affordable range. However, 500GB used to be sufficient to store multimedia, but that is no longer the case. Each of my daughter's school performance videos is a 30-50GB file, and they quickly add up. The cloud is okay as a backup, but for primary file storage it's more costly, higher latency, and less convenient. For non-multimedia storage, we already had affordable SSDs in usable capacities, so I'm not sure I
For watching or for editing? (Score:2)
Each of my daughter's school performance videos is a 30-50GB file, and they quickly add up.
Is that a copy for watching or for editing? An extended DVD is 8 GiB, and it uses an obsolete codec (MPEG-2). I'll grant that video production needs more disk space, but I imagine that "most" people won't be doing that. Besides, I was under the impression that external interfaces (USB 3, eSATA, Thunderbolt) have become fast enough to support editing video, so you could leave the SSD inside the case and plug in the HDD only when needed.
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Each of my daughter's school performance videos is a 30-50GB file, and they quickly add up.
Is that a copy for watching or for editing? An extended DVD is 8 GiB, and it uses an obsolete codec (MPEG-2). I'll grant that video production needs more disk space, but I imagine that "most" people won't be doing that. Besides, I was under the impression that external interfaces (USB 3, eSATA, Thunderbolt) have become fast enough to support editing video, so you could leave the SSD inside the case and plug in the HDD only when needed.
Yes, I could transcode the video to something much more compact. I don't have a camcorder with a newer interface, so I wouldn't want to use it as a storage device. However, the main reason I don't do either is convenience. I already have an HDD, so I can simply copy the file. Why go to all the hassle just to fit the file into a smaller device?
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I already have an HDD, so I can simply copy the file. Why go to all the hassle just to fit the file into a smaller device?
So that you can carry the smaller device with you and leave the external HDD at home.
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Cap (Score:2)
It's getting harder to justify spinning disks at home, especially as the traditional data hogs (backups, videos) are largely moving to 'the cloud'.
This is true so long as your home Internet connection either lacks a monthly cap or has a cap so high you're never likely to run into it. For example, people who don't torrent or stream HD video to multiple devices are unlikely to hit cable's 300 GB/mo cap. But people who rely on satellite, cellular, or Iowa DSL [slashdot.org] have to pinch their megabytes.
Call me when... (Score:2)
Call me when prices reach $90 for 2TB+
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Spoiled brat. I remember buying RAM at $30 per meg. Before that the metric was pretty meaningless as we were happy with just a few kilobytes. $100 per TB for flash memory would have been a nerd's wet dream back then.
I remember those days too. The reality is though at this very moment I can get a platter drives at $0.03/GB so $0.70/GB does not seem attractive in the least. There are performance considerations and platter drives have fewer uses which is why I think a reasonable price should be $0.04-0.05/GB for NAND.
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Tape is even less expensive, yet the mainstream moved away from it. A disk is just tape that's been wound up into a smaller space.
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Tape is even less expensive, yet the mainstream moved away from it. A disk is just tape that's been wound up into a smaller space.
Tape is great for archival purposes where you're dumping/retrieving streams of data that can be stored sequentially. That's not exactly useful for the needs of an active HDD.
Driving prices down, sure... (Score:1)
but also driving reliability down.
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Not a Fraction (Score:2)
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Gotta love that 0.9375nm process!
There's prices and then there's Apple prices (Score:2)
FTFS: "prices for consumers have dropped to an average of $91.55 for a 128GB SSD and $164.34 for a 256GB SSD"
Perhaps I'm missing something, but why would an additional 256 GB flash cost $300 and an additional 768 GB cost $800 when you buy a 15" MacBook Pro [apple.com]? Or perhaps there's a boardroom in Cupertino where they're laughing and shoveling money the whole day :D
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You usually shouldn't get your RAM or storage upgrades directly from Apple, but since they've started integrating both directly in the hardware, you can't do that anymore on some of their computers.
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Why can't a third-party SSD maker ship its own driver that supports TRIM on its own SSDs? Or does Apple use kext signing to exert veto power over third-party storage drivers?
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Well, the MacBook Pro doesn't use SATA SSDs, because SATA is bottlenecking SSD performance. SATA3 SSDs are only getting 540MB/sec - a really magic figu
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Did you know that unless the a SATA SSD drive is tagged as Apple, TRIM doesn't get enabled.
Is this only with Apple drivers or also with third-party drivers? Or does Apple lock SSD makers out of being able to make and sign their own drivers?
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Apple will not allow 3rd party SATA drivers.
In that case, someone who cares about storage performance ought to use something other than a Mac for every app that isn't called Xcode.
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completely wrong prices (Score:1)