Micron and Intel Announce 3D NAND Flash Co-Development To Push SSDs Past 10TB

MojoKid writes Both Micron and Intel noted in a release today that traditional planar NAND flash memory is reaching a dead-end, and as such, have been working together on 3D memory technology that could open the floodgates for high densities and faster speeds. Not all 3D memory is alike, however. This joint development effort resulted in a "floating gate cell" being used, something not uncommon for standard flash, but a first for 3D. Ultimately, this 3D NAND is composed of flash cells stacked 32 high, resulting in 256Gb MLC and 384Gb TLC die that fit inside of a standard package. That gives us 48GB per die, and up to 750GB in a single package. Other benefits include faster performance, reduced cost, and technologies that help extend the life of the memory.

Re:

[Anonymous Coward]

Simple. Don't use SystemD! Get one of the BSD's.

Re:

[fnj]

I built a FreeBSD 10.1 server with a single root ZFS pool consisting of seven 3 TB drives in RAID-Z3, including a small 7-way mirror of swap space. The process was completely pushbutton using the install UI. Partly I did it just to explore how much difficulty the install might be (no difficulty whatsoever), but the setup has proved very effective in use.

It was pretty cool rerouting some of the SATA connections randomly (even to a different HBA) as a test, and removing two of the drives as a test, and having

Re:

[Celarent Darii]

For monitoring motherboard stuff:

http://www.freshports.org/sysutils/healthd/>systutils/healthd

Re:

[fnj]

Thanks for the tip. I'll check it out. The proper URL is http://www.freshports.org/sysutils/healthd/ [freshports.org]. Unfortunately all the links at that page are now dead and "there is no maintainer for this port". I will try it, with trepidation, though all other sensors related ports for FreeBSD appear to be garbage.

Re:

[fnj]

Simple. Don't use SystemD! Get one of the BSD's.

At least spell ir right, you guys, so you don't look like idiots. It's systemd, not "SystemD" [freedesktop.org]. Sheesh! Does anyone write FtpD or HttpD or SmtpD?

Re:

[GCsoftware]

Yeah spell it right - it's 'systemd'. Looks like an OK operating system, shame it doesn't have a decent init.

Re:

[ChrisMaple]

Keep more than one version of Fedora on your computer, in different partitions. I currently have F14, F17, and F20. Use multiple drives, so that worst case there are multiple boot drives available from BIOS. Keep a "Live CD" available on a USB flashdrive.

Re:

[account_deleted]

Comment removed based on user account deletion

Re:

[Billly Gates]

Actually Hairy this was tested [arstechnica.com].

Ssds are more reliable than platters these days. My 2012 Samsung pro in raid 0 still functions. There is a free tool out there that gives you health and life of a ssd reported I had til 2025 before it goes kaput. Times are changing and sand force is gone.

Try it ... and system D guy was troll and off topic trying to start a flameware. SystemD and other init replacements were hip since 2005 when Apple did theirs ... until last summer when sys admins who find nothing wrong with

Re:

[account_deleted]

Comment removed based on user account deletion

not the problem

[slashmydots]

A monkey could configure a 10TB array right now and power isn't exactly a problem. Putting it in a single drive is neat but the #1 problem with SSDs right now is price. The prices are horribly inconsistent day to day. They can make a 2Tb or 10Tb or 10000TB drive for all I care but what I need for my many, many custom builds at my shop is a low cost 240-256GB SSD.
Once in a while I can get a $90 silicon power S60 240GB SSD. Crucial's MX and BX series hit that low once in a while. All others are perpetua

Why SSD in a "do-nothing" PC ?

[perpenso]

All others are perpetually above $100 which is too expensive for a Facebook wonder do-nothing PC with a pentium 4th edition and 4GB of RAM.

Why use an SSD in such a do-nothing PC? If you can't go with a regular HD try a hybrid SSD-HD. Last I looked a hybrid with 1 TB HD and 8 GB SSD was under $80.

Re:

[mlts]

Had a similar choice when giving a laptop to a relative. I went SSD instead of SSHD because SSDs are physically more resistant to shock.

However, if given the choice with a desktop... I'd probably still use SSD, just because when I delete a file and fstrim the drive, the file is -gone- for good, since the drive controller will come around, write "1"s to all the pages that file used and call it done. Of course, keeping good backups when using SSDs is wise, just due to this exact thing.

Re:Why SSD in a "do-nothing" PC ?

[RobinH]

I have upgraded 4 computers from HDD to SSD's since Christmas. They were all from 2 to 5 years old, and all of them run like they're a brand new computer. They boot amazingly fast, and they launch programs really fast. Compiling is much, much better too. I wouldn't ever go back to a rotating hard drive for anything other than long term archival storage now. Maybe I'd do a hybrid drive, but really around $100 or so for 240GB is a really nice sweet spot at the moment.

Re:

[beelsebob]

You have a faulty SSD if you've got to 12% worn in 1 month. For a non-faulty 840 EVO 1TB that's a physical impossibility. 12% wear would imply that you've written more than 36TB to the drive already, which implies writing continuously at 833MB/s, which is higher than the drive's maximum write speed.

Re:

[Anonymous Coward]

Oh please. I've replaced several hundred worn-out consumer SSDs in servers. They wear-out quickly. There's a reason Dell charges $4,998.78 for their write intensive 800 GB SSDs. Poor quality drives like the Samsungs or Intel consumer models often wear-out in less than a year. The Dell drives cost ten times as much as the Samsung, but they're worth it since the Samsungs wear-out so quickly. If there wasn't a problem with the Samsung garbage wearing out so damn quickly, why would anyone ever pay ten times as

Re:

[Billly Gates]

Nope benchmarks show superior reliability [arstechnica.com]

Likely your drives didn't wear out. No trim in raid with anything under Windows 2012 without intel RST driver screwed up wear leveling as it lost track of virtual rewrites

I see your 900 TB

[justthinkit]

I see your 900 TB and raise you to 2 freaking petabytes [techreport.com]. Not quite a min raise, I realize...

Re:

[halltk1983]

Yes, there is. Dual SAS channels, allowing the disc to be controlled on independent control channels from redundant controllers, allowing improved uptime.

Re:

[Coren22]

Just to counter this. I have an Intel I bought on 7/23/2009 (looked it up on Newegg) that I don't use much as it is only 32 GB. I also have a 120GB Intel (with a Sandforce controller) from 8/25/2012 that is still working just fine. Intel and Samsung are on the top end of SSDs as they own their own fabs, so don't badmouth without actual evidence.

Re:

[LordLimecat]

What are you doing that's writing ~100-200TB / year?

Re:

[Christian Smith]

Centralized remote syslog server that also feeds to Elasticsearch which indexes the syslog entries for reporting and searching. After daily aggregate reports are done, a week later the entries are moved to spinning rust and only the canned reports stay on SSD. With the way Lucene works and our indexing is setup, a 100 byte syslog entry can easily turn into 2k of index. The canned reports now only take a tenth of the time they took before we added the five Samsung drives and the historical reports load even faster than that, but the drives are just wearing out too quickly for comfort.

So you're simply using the wrong drives. The 840 EVO is a consumer level drive. You want a more enterprise like drive like Intel 3700, which is warranted for 10 drive writes per day for 5 years. It costs more, sure, but you can surely justify the cost based on the performance and reliability benefits.

Re:

[Coren22]

You want a more enterprise like drive like Intel 3700, which is warranted for 10 drive writes per day for 5 years

Is that 10 a typo?

Re:

[ejasons]

Is that 10 a typo?

Entire drive capacity writes...

Re:

[guruevi]

You're doing it wrong! Unless you don't care about data loss and calculated out that replacing the EVO's every few months is actually a cheaper option compared to a decent SLC (Intel, STEC, ...) or even RAM SSD over the lifetime of your server, then I would recommend re-examining your setup. SLC's are not only faster, but they're a heck more reliable. If you just care about speed on a single box, get a PCIe based SSD. Desktop drives for this kind of setup is asking for trouble.

I still have a set of 32GB SLC

Re:

[Coren22]

What is wrong with Newegg? They tend to have the most selection of computer hardware around. Sure you could buy from Ingram Micro, but there is no guarantee that they have any larger selection, and you will pay more.

Re:

[LordLimecat]

He could have gone with the Samsung "Pro" drives, which have held out to 2PB of data writes before croaking; they at least pretend to not be consumer drives.

Re:

[sonicmerlin]

Then buy a Samsung 850 Evo Pro. The 3D NAND is at 40 nm and is extremely long-lasting.

Re:

[bloodhawk]

So your doing enterprise level syslog aggregation and archiving on consumer level hardware? really?

Re:

[jones_supa]

A good consumer drive could take it just fine.

Re:

[LordLimecat]

I might suggest that you need to not be expecting a consumer SSD to hold up to an enterprise workload.

Re:

[halltk1983]

Get more RAM and disable the page file. I did that years ago, and it works just fine. I've had *one* OOM blue screen in 4 years, and that was because I was seeing how much I could open at the same time.

Re:

[Coren22]

On top of what Halltk says, if you install Windows 7 and above to a SSD, it auto optimizes for SSD (no page file, turns off defrag, and I am sure other optimizations)

Re:

[fnj]

$ smartctl -a /dev/sda | grep Wear
177 Wear_Leveling_Count 0x0013 088 088 000 Pre-fail Always - 136

Please post also the bytes written data from smartctl so we can get some idea of what crazy torture you are or are not subjecting it to.

Re:

[fnj]

LBAs written are in sectors (512 bytes), so about 37B sectors or 19 TB. The Flash has written (actually erased) about 136TB, so you are running with a wear amplification of about 7:1. If the drive is full, this is not too surprising. The way to get Flash to last longer is to leave free space so that the FTL has room to work in.

Nailed it. This drive is being tortured. 19 TB in one month is 630 GB (almost 2/3 of full drive capacity) written per day, or 7 MBps averaged 24x7, on a budget drive.

Over-provisioning

Re:

[LordLimecat]

For a do-nothing pc you should be using any of the hundred sub-$60 128GB ssds.

Tipping point?

[BenJeremy]

Hopefully this also sees a reduction in the cost of SSDs to bring them closer in line with platter drives, which have only just started dropping into the $30/TB range once more (since the Thai floods gave manufacturers their own Sumitomo excuse to drive up prices).

If the market had progressed more realistically, platter drives would be $15/TB and we'd already have consumer-level 10TB drives, but Seagate and Western Digital took a breathing period to reap profits, allowing SSD technology to start playing catch-up. ...not that SSD makers are off the hook... they've gone to smaller fab processes that shortened the life of NANDs and also have kept prices from falling at a reasonable rate, too.

I think we are two or three breakthroughs from reaching parity on cost per byte for platter and solid state tech, at which point, platter technology will likely become a very small niche market.

Re:

[mlts]

Platter technology will end up being pushed to the NAS/SAN, which is why WD is making their red line of drives.

Perhaps HDDs, now that speed and capacity are secondary, they will start evolving down the path of reliability, perhaps replacing tape as an archival medium.

NAS drives are going to be a big market, especially with devices like Apple's new MacBook with limited expansion capability, so people will use WiFi Direct hard drives as their main backup source, as opposed to USB drives. In this use, capacit

Re:

[swb]

I think major leaps of density will eliminate platters. Why bother with them at all with their ridiculously slow seek times, heat, power consumption? At high capacities they're more of a risk to data integrity due to slow array rebuild times and it takes dozens of them to equal the IOPS of flash. Even now platters are either useful for their high density as Tier 3 in a SAN or in large numbers to get IOPS.

If there was a huge leap in flash densities I think they would get cheap enough that no one would bot

Re:

[Anonymous Coward]

Chip fabrication tech and flash density is increasing at a rate far faster than spinning platter storage. At mass market scales, SSDs are going to win pretty soon because of simple BoM cost.

Hard drives require a lot precision machining and assembly. Chip fabrication and PCB assembly scales much better, and is much cheaper. It's the same pick-and-place followed by oven reflow that /everything/ else uses.

Flash storage is going to win by size, logistics, power usage, and mechanical requirements. Why devote spa

Re:

[Anonymous Coward]

A tiny board with 2-3 chips. Most of the inside of that 2.5" drive chassis is empty air.

That's because of the mSATA format. You can already buy a 1 TB [amazon.com] mSATA drive. On raw size alone you can fit 7.1 of those into the same space as a 3.5" hard drive. [wolframalpha.com]

They just need to get the cost down. Storage solutions in the future will be trays of those chips in a 1U-4U form factor with fans in front and some CPU and networking connections. No more 'hot swap' hard drive 3.5" form factors, just swap an entire blade of SSD chips.

Re:

[jones_supa]

Hard drives require a lot precision machining and assembly. Chip fabrication and PCB assembly scales much better, and is much cheaper. It's the same pick-and-place followed by oven reflow that /everything/ else uses.

Good point.

Re:

[Billly Gates]

Where is cheaper and greater ram? We should be seeing 128 gb ram by now and ram drives and caches for faster performance

Re:

[bloodhawk]

64GB and 128GB ram is already available. You just don't see them at the consumer levels as their is no need or demand for them. a consumer benefits more from persistent storage, the advantages of ram drives is really non existent for all but a very small niche of users. Server side we have had this for a long time. The two servers I am currently playing with have 4TB of ram.

Re:Headline != Story

[edmudama]

750GB per package.

A single SSD may have anywhere from 1 to $alot of packages on the board, hence 10TB SSDs.

Re:

[BronsCon]

This. We already have >1TB SSDs, so clearly they're already using $alot of the current 750GB packages to do that.

Re:

[BronsCon]

Damnit, that was <750GB.

Re:Headline != Story

[beelsebob]

750GB is the amount they can fit one one chip package - i.e. what they could fit on a SD card. A typical gum stick SSD has several of these (usually around 5), hence the 3-4TB per gumstick estimate. A 2.5" drive will typically have more like 12-15 of them, hence the 10TB estimate.

Re:

[Em Adespoton]

Samsung has yet another 3D method they're using in PCIe boards, and those are already shipping in Apple's MacBook Pros.

Competition is good... especially in this field!

i can't wait!

[Gravis Zero]

At this rate I'll finally be able to have my entire music collection on an iPod without having to compress my music in that terrible FLAC format. FLAC is a "lossless" format but you can totally hear which bits have been squished into the file for too long! That's why I decompressed all my files and let them sit for a week, so that the bits can breathe.

Re:

[account_deleted]

Comment removed based on user account deletion

Re:

[smprather]

This truly is the way "audiophiles" think. I'm still emotionally scarred from the crap I read in Audiophile magazine(s) while in high school. https://www.youtube.com/watch?... [youtube.com]

Re:

[maestroX]

Be sure to put the disk upright to avoid 1 bits accidentally falling over.

NAND flash is still expensive garbage...

[Anonymous Coward]

More layers of NAND will just multiply the already steep cost. With process shrinks and MLC, flash endurance is falling sharply, and the bits literally leak out over time. In addition to being physically unreliable, the complex software stack required to transform block-erasable flash into useable storage does not inspire confidence, especially when virtually no drives guarantee data integrity with loss of power.

Far more interesting would be solid state storage based on memristors or phase-change memory.

I'm sticking with tape

[OrangeTide]

Good old reliable tape. None of this fancy random access hard disk garbage that fails all the time, or complicated wear leveling flash nonsense.

Maybe something like core memory [wikipedia.org] or bubble memory [wikipedia.org] if I need some random access behavior.

I hear it's down to a penny per bit, only around 1200 megabucks for 10 gigabytes of Core memory.

Re:

[Anonymous Coward]

Tape is reliable, and core memory (in its modern incarnation as MRAM) provides immensely superior reliability and read/write performance. Unlike NAND flash, it offers true random access at a byte level granularity. NAND flash has its place, but it is the CD-RW of solid state storage technologies.

NAND flash uses a pile of emulation software to fake hard disk semantics, and it degrades reliability and performance. Anything less than a quality enterprise SSD with capacitor has no chance of implementing such

Re:

[Yunzil]

With process shrinks and MLC, flash endurance is falling sharply, and the bits literally leak out over time.

Uh, that's kinda the point of 3D. Instead of shrinking the cells, just stack them up. It's what Samsung did with their 850 Pros, which have a 10-year warranty. Besides, the TechReport torture test shows that reliability really isn't a problem for consumer-level devices.

Does this mean

[Anonymous Coward]

they are optimizing the design to be 3D printed in my living room? I'm already 3D printing my house, and the car in the garage, it would be nice if we could 3D print a complete house including the laptop in one pass?

Re:

[Em Adespoton]

Most microchips are 3D printed... you just wouldn't be able to afford the printer they use, and the chemicals involved would likely make living in your house a thing of the past..

Re:

[Em Adespoton]

Whoosh?