Micron Demos SSD With 1GB/sec Throughput

Lucas123 writes "Micron demonstrated the culmination of numerous technology announcements this year with a solid state disk drive that is capable of 1GB/sec throughput with a PCIe slot. The SSD is based on Micron's 34nm technology and interleaving 64 NAND flash chips in parallel. While the techology, which is expected to ship over the next year, is currently aimed at high-end applications, a Micron executive said it's entirely possible that Micron's laptop and desktop SSDs could have similar performance in the near future by bypassing SATA interfaces."

Yes that's nice.

[electrosoccertux (874415)]

This reminds me of all the demos of holographic disc technology. It'll be on the market in just 1 year! But it never is, and it's never affordable for us /. browsing types.

Re:Yes that's nice.

[Joce640k (829181)]

Yeah, but ... Intel is shipping SSDs with 220Mb/s read/write:

http://hardware.slashdot.org/article.pl?sid=08/11/25/015209 [slashdot.org]

What's so fantastic about 1Gb/s? It's only four times faster...a RAID with four Intel devices will do it so just put four of them in a box with a RAID controller and Bob's your uncle...

Re:

[nbert (785663)]

If you are talking about RAID 0 you are almost correct (two disks in RAID 0 only get close to 2x the speed - they will never reach it) . The problem is that all data is gone in case that one hdd dies and the chances for that grow with every disk you add. The probability is 1 (1 p)^n (n being the number of disks). So at a failure rate of 2% per disk in 3 years you get 8% for 4 disks or even 28% for 8. Of course you could compensate this by combining parity with striping (RAID 0+1 or RAID 5 for example), bu

Re:

[dfghjk (711126)]

The failure and scaling issues you mention aren't any different from those that Micron faces inside their product since the approach they take to performance is basically the same. You think doubling the flash parts and the number of channels isn't directly analogous to RAID 0?

Re:

[nbert (785663)]

Not at all: If a disk in RAID 0 fails all data is gone. If one block within a SSD fails it will affect only the files which had parts stored in them.

They are not using multiple disks. The reason why the article mentions two disks is because they needed a source and a target.

Re:

[MicklePickle (220905)]

Bob's your uncle

He is! But... how did *you* know that?

Re:

[mikkelm (1000451)]

Actually, in RAID 5, five 250MB/s drives will roughly offer you the same performance as a 1Gbps drive for most sequences of IO operations. SSDs feature almost linear scaling due to the extremely low seek times.

Re:

[mikkelm (1000451)]

Err, watching Thanksgiving football and posting on slashdot is not a good idea. s/1Gbps/1GB\/s

Re:Yes that's nice.

[lysergic.acid (845423)]

that's still not quite as impressive as 1600 MB/sec throughput [micronblogs.com] using 2 drives (which can be integrated into a single-card solution).

Re:

[Smauler (915644)]

That depends on your RAID system. I used to love the idea of RAID 5, until I actually looked at the benchmarks. Unless you have proper dedicated decent hardware calculating the parity (which really costs), writing to a RAID 5 is dog slow. Like, a lot slower than writing to a single disk in most cases. Reading is quicker, but far from wonderful on consumer level hardware.

In my opinion, if you want a consumer level raid solution that will actually offer increased performance, RAID 1+0 is a good option. P

Re:

[cheater512 (783349)]

Erm my home server with four disks in RAID 5 (software RAID) handles wonderfully.

I've never seen the RAID take more than 2% CPU and write speeds are far faster than a single drive.

Re:Yes that's nice.

[Glonoinha (587375)]

Say what?

Actually, RAID can work EXACTLY in this way. Set up a RAID 0 array of 250Mb/s devices and if the host controller can handle it - bingo, Gigabit throughput from the array. There's a guy out there that RAID'ed six of the Gigabyte iRAM cards on some high end RAID card a year ago - and he managed somewhere in the neighborhood of 800MB/s - surely a year later we can do better than that. The only limitations his rig encountered were the limited space available, and of course the volatile nature of the iRAM cards.

The things by Micron appears to have handled the issue of volatile memory when the memory goes down, and getting all the bandwidth through a single channel bus. When it becomes commercially available - count me in for one (when the price comes down enough for me to afford it.)

Re:

[Free the Cowards (1280296)]

And you think the 1GB/sec quoted in the title is actual performance in all situations, not just raw read speed?

Re:

[Glonoinha (587375)]

There are a few videos on youtube of guys that RAID'ed iRAM's showing just insane performance.

If it weren't for the cost of adding four of these (plus four 1G sticks of pc3200 on each) I would have already scored a similar rig - but right now I'm working on a limited R&D budget. Maybe next year.

That said - these are really, really sweet - but I have to ask whether the RAID'ed iRAM or the new Micron SSD can hold a candle to a ramdisk ( see also : http://www.ramdisk.tk/ [ramdisk.tk] ) - I figure on a machine that can

Re:

[Joce640k (829181)]

Yes, but you know what I mean. RAW transfer speeds can scale quite linearly when you put multiple storage devices in parallel.

It's just a case of sorting out the controllers. SATA isn't fast enough for 1Gb/s so I assume it will be a mini-PCIe card or something like that.

If it is mini-PCIe then I'll definitely be getting one for my Eee PC.

Re:Yes that's nice.

[Kjella (173770)]

This reminds me of all the demos of holographic disc technology. It'll be on the market in just 1 year!

That one has always been in the mysterious future (3-10 years away, never next year) and never really showed up outside of labs. SSDs on the other hand aren't really "new", they're in essence flash chips like we've been using in cameras and USB sticks for many years plus RAID0 that's been a well known way to make slow storage devices faster by running them in parallel. There's quite a bit more controller magic than that, but it's nothing really revolutional in the creation of SSDs. Only the regular miniturization process that's happening all around which means they are reaching capacities and speeds that are useful for main computer storage.

Re:

[TheRaven64 (641858)]

300GB+ holographic disks are shipping now, but they definitely aren't in the 'affordable to /.-browsing types' category.

Re:

[Yvan256 (722131)]

I can buy an external USB2, Firewire 400 and eSATA 1TB drive at Costco, today, for 235$ CAD. How much are those puny 0.3TB holographic disks, and how fast and reliable are they?

Re:Yes that's nice.

[TheRaven64 (641858)]

The InPhase disks are $180 and the drives are $18,000. Unlike your external disk, the disks are rated to last 50 years. Not sure how much the Optware versions cost, but they start at 1TB and go up from there.

Re:

[Yvan256 (722131)]

Even if we take for granted that:
- hard drives will never increase in capacity
- the price of a 1TB drive will never drop

Add to that the following assumptions:
- a hard drive never lasts more than 1 year
- we need to be in RAID 1 (two drives) to be safe

That's 235$ CAD per drive, multiplied by two drives per year, multiplied by 50 years: 23 500$ CAD.

I'll assume your 18 000$ InPhase drive price is in US$, which means it would cost me 22 000$CAD for the drive alone without any InPhase disks.

So, it's either shell

Re:

[TheRaven64 (641858)]

You are assuming you'd only want a single disk. The target market is people who are generating several disks worth of data per day. If you are recording HD footage, and especially if you are editing it, then you burn through a TB very quickly. The cost of the drive becomes tiny per disk if you're using a lot of them. Even if you're only burning one disk a day, you're paying $50/disk over the course of the year. If you burn two a day then it brings the cost of disk and drive to around $200 each, very ch

Re:

[Yvan256 (722131)]

In that context, then yes I do see how that would be a huge advantage.

I was looking at this as an average /. reader, as you say.

Re:Yes that's nice.

[SanityInAnarchy (655584)]

It was about $300 extra for a 128 gig SSD in this Dell laptop. I just ran a casual test. Keep in mind, this is currently being used (lightly), and I haven't done anything to improve the results of this test -- in fact, probably just the opposite, as the file in question was downloaded via BitTorrent, and I've never defragmented this hard drive. It certainly hasn't been read since the last boot.

dd if=foo.avi of=/dev/null
348459+1 records in
348459+1 records out
178411124 bytes (178 MB) copied, 1.82521 s, 97.7 MB/s

Keep in mind, that's throughput -- it gains nothing from the real killer feature of no seek times.

I can always buy big, slow spinning disks and put them in a NAS somewhere. I can take old desktops, put Linux on them, and turn them into a NAS. For the kind of stuff that takes hundreds of gigs, I don't need much speed.

But for the places where it counts -- like booting an OS -- there is a definite, real benefit, and it's not entirely out of reach, if you care about this kind of thing.

Re:

[nbert (785663)]

AFAIK no SSD apart from Intel's newest line provides any real advantage over spinning disks. They are faster in some areas, but in others they perform very poorly (write times for example). You'll get far more realistic numbers if you specify a real file in of. Here is the difference:

Desktop nerdbert$ dd if=test.zip of=/dev/null
136476+1 records in
136476+1 records out
69876088 bytes transferred in 2.249553 secs (31062211 bytes/sec)
Desktop nerdbert$ dd if=test.zip of=Herbietest
136476+1 records in
136

No SATA, eh?

[fuzzyfuzzyfungus (1223518)]

SSDs built into mini-PCIe cards aren't new, so obviously they are possible(and I remember the concept going back as far as 44pin IDE drives on special PCI cards). Historically, though, these cards have appeared, from the perspective of the computer, as ordinary IDE or SATA adapters that just happen to have storage attached.

Does anybody know if this widget from Micron is similar, or are they actually pushing some new flavor of interconnect that will require BIOS tweaks and/or special drivers?

Re:

[zdzichu (100333)]

They may present SSD memory region accessible by PCI address space. The same way graphic cards present their memory. There's already driver for such kind of memory, it is included in Linux Kernel for few years and was used in implementing swap-over-videoram.

Re:

[Kjella (173770)]

It's a card with the flash chips on it, not a controller card, which you seem to be referring to. The latter acts as an interface between the actual drives and the motherboard, the former *is* the drive itself.

No, the parent asked it right. He was wondering if it still appears to the host as a controller w/drive atatched. And the answer is that I don't see why not, there are faster things like SATA2 like FC that as far as I know works in the same way.

Oblig

[PearsSoap (1384741)]

64 NAND flash chips in parallel should be enough for anyone!
I'm curious, what are the applications for this kind of disk speed?

Re:Oblig

[Narnie (1349029)]

Perhaps loading Vista in less than a minute?

Maybe?

Re:

[Ariastis (797888)]

Porn, what else!

Those videos have to load fast, yknow...

Re:

[Yetihehe (971185)]

Databases, file servers, anything which needs to load fast from a disk.

Re:Oblig

[im_thatoneguy (819432)]

Uncompressed HD, 2k and 4k film playback and capture.

At work we regularly are working with dozens of layers of 2048x1024 32bit uncompressed footage at the same time.

Re:

[rkww (675767)]

Feeding a 4k digital projector [sonybiz.net] at 24 fps requires 4096 * 2160 * 4 * 24 = 810 MB / second, so 128GB gives you about 150 seconds (and a 90 minute film eats 4.2 TB). There aren't, currently, many systems which can sustain that kind of data rate. It takes a lot of drives, and multiple layers of striping.

Re:

[w0mprat (1317953)]

Simple: Swap file.

With this kind of SSD throughput it doesn't become necessary for an OSS to use cpu cycles populating a a file cache in memory. Which is the technique that hides the slack performance of modern storage compared to system ram.

Infact you could swap ALOT of process memory out of ram, and only experience a tiny percieved slow down in application performance. To put a number guesstimate on it: you could run a application with a footprint 5-10 times bigger than system memory with only a smal

There is a market...

[Max Romantschuk (132276)]

...for really high bandwith stuff.

For example, these puppies from Edgeware, designed for video streaming, can do 20GB/sec:
http://www.edgeware.tv/products/index.html [edgeware.tv]

(And these aren't vaporware, I've seen the actual hardware in action.)

Granted it's very custom stuff, but putting tech like this in a box with a SATA interface is really just evolutionary... Cool none the less though. :)

Re:

[James Youngman (3732)]

Granted it's very custom stuff, but putting tech like this in a box with a SATA interface is really just evolutionary... Cool none the less though. :)

Well, it's already happened. Take a look at the RAMSAN [superssd.com]. It kicks ass.

Drive on a card....

[Amphetam1ne (1042020)]

Storage on an expansion card is nothing new, my Amstrad 1512 had a 40mb hdd on an ide card.

Re:

[Yvan256 (722131)]

I think you meant "on an ISA card".

Just what Fusion I/O needed...

[brianjcain (622084)]

...some competition! Seriously, I think they'll be better off. There's probably too many nervous nellies out there unwilling to dive into non-SAS/SATA/FC storage with a newcomer like Fusion I/O.

BTW, WTF is up with "The second generation of PCIe is expected out next year ..."? It's been out for a while now, I've seen motherboards, GPUs, and IB HCAs that support gen2.

Bottleneck removed

[w0mprat (1317953)]

This would be the first time a storage device would significantly saturate system memory bandwidth.

Indeed Intels SSD has a internal NCQ like command queue system to mask latency of the host. Common storage controllers are (obviously) not up to the job.

1gb/s from a single drive, that finally brings storage speed back in line with moore's law, which only capacity has followed it seems.

btw what's the reliability of ssd drives

[Sark666 (756464)]

say with a power outage. I've lost a couple of drives over the years that way.

Re:

[myxiplx (906307)]

Trust me, throughput is still important if you're running these in a fileserver on a fast link (10Gb ethernet link, infiniband, fibre channel, etc). The read & write speeds of standard SSD's mean you need a whole bunch in parallel to prevent them becoming a bottleneck, which makes them hard to integrate into existing servers.

In contrast, a single fast PCIe SSD can drop right in. There's definately a market for high bandwidth SSD's in high end storage devices.

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[lysergic.acid (845423)]

the Micron video shows a 2-drive setup performance of 200,000 I/Os per second. (2KB) random read = ~400MB/sec.

a benchmark performed by Linux.com [linux.com] also shows that SSD absolutely creams SATA [linux.com], even 6 SATA drives in RAID 6, in terms of random seek. in other tests a single Mtron 16GB SSD gave 111 MB/s sustained read with .1 ms access time, outstripping the WD Raptor 150, which was the fastest SATA drive at the time the test was performed (12/13/07). the only area where SSD lags behind is random write, which it su

Re:

[XDirtypunkX (1290358)]

Actually, random reads are a very big strong point of SSDs, because they have 2 orders of a magnitude less seek time than a platter drive.

Random writes are good on SLC SSDs (the expensive variety) and average on MLC SSDs (although, many MLC drives cause a pause after too many random writes at the moment).

Re:Interleave

[billcopc (196330)]

You're implying that SSDs fail as often and disastrously as fast-spinning disk platters.

They don't, which is why a beowulf cluster of SSDs is a beautiful thing, though my concern is DDR2 can deliver much faster throughput and ns-latency, while the density trails a bit behind SSD but not that bad.

With 4gb DDR2 modules hitting the mainstream, and 8gb modules in the high end, what's stopping someone from putting a bunch of them on something like Gigabyte's i-Ram (minus the stupid SATA bottleneck) and having themselves a DIY uber-SSD ? Sure, there are differences but it's nothing a battery can't fix.

Re:

[Ungrounded Lightning (62228)]

With 4gb DDR2 modules hitting the mainstream, and 8gb modules in the high end, what's stopping bunch of them on something like Gigabyte's i-Ram (minus the stupid SATA bottleneck) and having themselves a DIY uber-SSD ?

Possibly power density and/or signal integrity hooking up so many devices.

Not unsurmountable. But not straightforward, either.

But you need a use case to pay for the development and devices. Fast long-turn bulk storage built out of active devices isn't it: With that many in a box backup power

Re:

[b4upoo (166390)]

What alterations does a PC need to really take advantage of this blistering high speed device?Obviously we can't pump that kind of speed through the internet. I can see certain programs being rewritten to make good use of such speed such as compression and context search scripts.

Re:Interleave

[owlstead (636356)]

You *are* joking right? Currently the memory bandwidth is only a minor problem against disk performance. Disk IO is either really slow or really really expensive. Even nowadays, I can download faster than that I can save / PAR2 and unrar my binaries. I won't go into playing games at the same time: impossible. Disk spaed is a slow crawl. And that's just consumer stuff, I won't go into tuning high throughput databases.

Re:

[myxiplx (906307)]

You mean like this: http://www.mars-tech.com/ans-9010b.htm [mars-tech.com]

And the battery doesn't need to be huge either - it backs your data up to a flash drive if the power cut lasts more than a few seconds.

Re:

[Yvan256 (722131)]

The end of SATA? Dude I'm still using parallel IDE hard drives over here, and some are over FireWire 400 or USB 2.0.

In any case, Firewire 1600 and Firewire 3200 are just around the corner.