The rumors are true, Intel’s 2nd generation SSDs are available starting today.

The high level details are pretty interesting:

  • The new drives will be available in 80GB and 160GB sizes and are still called the X25-M and X18-M. The X18-M will start shipping later this quarter.
  • 34nm flash (down from 50nm in the original X25-M), allows Intel to include roughly twice the flash in the same size die.
  • The enterprise SLC version doesn’t get the 34nm treatment at this point.
  • The smaller flash die results in lower prices, the 80GB model will sell for $225 while the 160GB version should sell for $440.
  • Best case read/write latency has been improved (more details below).
  • The 34nm drives have a new controller and new firmware, also contributing to better performance (2 - 2.5x more 4KB random write IOPS than the old drive!). Enterprise level workstation/database apps should see an immediate performance benefit, client desktop performance is unknown. Don't expect a significant increase in PCMark or SYSMark scores, but in real world usage the new drives could feel faster.
  • The new controller is Halogen-free (the old one wasn’t) so Apple could theoretically use the new drives in their systems without being un-green.
  • TRIM isn’t yet supported, but the 34nm drives will get a firmware update when Windows 7 launches enabling TRIM. XP and Vista users will get a performance enhancing utility (read: manual TRIM utility). It seems that 50nm users are SOL with regards to TRIM support. Bad form Intel, very bad form.
  • I get my drive this week, so expect a review to follow.

Overall it’s an evolution of the X25-M, and not a revolutionary new design. The focus of the evolution is definitely price. Intel wants the X25-M to be used, not only at the high end, but even in mainstream PCs. At $225 for an 80GB drive, the new X25-M is currently cheaper than most Indilinx based drives on the market:

Drive NAND Capacity Cost per GB Price
Intel X25-M (34nm) 80GB $2.81 $225
Intel X25-M (34nm) 160GB $2.75 $440
OCZ Vertex (Indilinx) 64GB $3.41 $218
OCZ Vertex (Indilinx) 128GB $3.00 $385
Patriot Torqx (Indilinx) 64GB $3.48 $223
Patriot Torqx (Indilinx) 128GB $2.85 $365
OCZ Agility (Indilinx, non-Samsung Flash) 64GB $2.77 $177
OCZ Agility (Indilinx, non-Samsung Flash) 128GB $2.57 $329
OCZ Summit (Samsung) 128GB $3.04 $389

 

There’s going to have to be a price correction from the competition. We may also see more manufacturers branching out to different flash memory vendors to remain price competitive (similar to what OCZ did with the Agility line).

The Specs Breakdown

The major differences between the 1st and 2nd gen X25-M are highlighted in the table below:

  X25-M Gen 1 X25-M Gen 2
Flash Manufacturing Process 50nm 34nm
Flash Read Latency 85 µs 65 µs
Flash Write Latency 115 µs 85 µs
Random 4KB Reads Up to 35K IOPS Up to 35K IOPS
Random 4KB Writes Up to 3.3K IOPS Up to 6.6K IOPS (80GB)
Up to 8.6K IOPS (160GB)
Sequential Read Up to 250MB/s Up to 250MB/s
Sequential Write Up to 70MB/s Up to 70MB/s
Halogen-free No Yes
Price $345 (80GB)
$600 - $700 (160GB)
$225 (80GB)
$440 (160GB)

 

The move to 34nm gives Intel the ability to both decrease costs and increase capacity. It now costs Intel the same to make a 160GB drive as it used to cost to make an 80GB drive, and about half to make an 80GB drive. Given the current cost structure, I’d say there’s still more room for Intel to drop prices but there’s just no need to given the competitive landscape.

Better Performance

The performance of the new drives is improved. Read and write latency are both improved by around 30%. These figures are for a single sequential operation, so you're looking at best case performance improving on the drive. Intel also tweaked the controller and its firmware to further improve performance; the result is much faster 4KB random writes on the new drives.

The real world benefits are difficult to predict. If you're running an I/O intensive app on the desktop then you'll see a definite improvement from the new drive. More typical desktop/notebook workloads probably won't see a tremendous difference between the 1st and 2nd gen drives. Large file sequential read/write speed remains unchanged and although there have been tweaks to the controller’s algorithms, the overall architecture hasn’t changed either.

I’ll be able to confirm for sure when I get a drive this week.

Other Spec Changes

There are two other specifications that have changed, one for the better and one for the worse with the new drive:

  X25-M Gen 1 X25-M Gen 2
Idle Power (MobileMark 2007) 65mW 75mW
Operational Shock 1,000G for 0.5 msec 1,500G for 0.5 msec

 

Load power hasn't changed between the drives, they are both at 150mW. Idle power went up by 10mW thanks to the new controller. These are "typical" values while running MobileMark 2007, so I'm not sure if things change at all if you're looking at real world workloads. Intel claims that the new drive doesn't deliver worse battery life than the old one, but I'll have to verify.

The maximum amount of operational shock that the 34nm drive can take went up by 50%; 1500Gs for 0.5 msec sure seems like a lot. I'm not sure if anything changed internally to allow for this higher rating or if it's simply the result of better manufacturing/improving production.

Halogen Free, Apple Friendly

A little known fact about the original X25-M was that its controller wasn’t Halogen-free. Because Intel used Halogens in the first controller, companies that had strict environmental restrictions (e.g. Apple) wouldn’t touch the drives.


Apple couldn't claim BFR-free on its new MacBook Pro if it used Intel's 1st gen X25-M. Bromine is a Halogen.

The new drive has a new controller and it is Halogen free. For Apple to glance over the X25-M in its mobile lineup now would be a serious mistake.

How to Tell the Drives Apart

Despite the price drop and internal changes, Intel is still calling these things the X25-M and X18-M. So how do you tell the new drives apart from the old ones? It all comes down to the part number; if the last two digits are a G1 then it’s the old drive, if they are a G2 it’s the new one. If you have them in hand, the new drives are silver, the old ones are black.

  X25-M Gen 1 X25-M Gen 2
80GB 2.5" SSDSA2MH080G1 SSDSA2MH080G2
160GB 2.5" SSDSA2MH160G1 SSDSA2MH160G2
80GB 1.8" SSDSA1MH080G1 SSDSA1MH080G2
160GB 1.8" SSDSA1MH160G1 SSDSA1MH160G2

TRIM Support: Not For 50nm Drives

Part of today’s announcement is the fact that Intel will enable TRIM on these 34nm drives when Windows 7 ships. Intel is planning on releasing a user downloadable firmware update that will enable TRIM support. Windows Vista and XP users will get a performance enhancement tool that presumably will just manually invoke the TRIM command. I suspect that Intel is waiting until Windows 7 to enable TRIM support is to make sure that everything is thoroughly tested. As we’ve seen with other attempts to enable TRIM, it’s a tricky thing to do.

The disappointing part of the announcement is that there’s no TRIM support for the first gen 50nm drives. As far as I can tell, this isn’t a technical limitation of the drives, but rather something Intel is choosing to enable only on the 34nm products.

Final Words...for now

I'm still waiting on my 34nm review sample, as soon as I get it I'll start working on a full review. I've already started work on the newest SSDs from the competition, so expect something soon.

 

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  • mikesown - Tuesday, July 21, 2009 - link

    I'm not referring to the RAM cache - I'm referring to the NAND used for storage. Intel partnered with Micron to form IM flash technologies, and Intel uses the NAND from IM in their SSDs. Reply
  • fredsky - Tuesday, July 21, 2009 - link

    hello Intel !
    nice update BUT the most important thing is the WRITE speed.
    why in hell are you limited (artificially) to 70MB/s ? go 200MB/s please!
    Reply
  • erple2 - Tuesday, July 21, 2009 - link

    No, the most important thing for drives of this size are Random Read and Random Writes, not sequential reads or writes. That's what you do when you are loading applications. Reply
  • JohanAnandtech - Wednesday, July 22, 2009 - link

    True. People forget how many times the OS has to access and write to the master file table. Those are all small block accesses.

    Also, desktops read a lot more than they write. So it is hard to imagine that anyone will be experiencing the write speed of 70 MB/s as a bottleneck.
    Reply
  • rcpratt - Tuesday, July 21, 2009 - link

    Hurry up, newegg :( Reply
  • vailr - Tuesday, July 21, 2009 - link

    Has Anandtech ever reviewed desktop PCIe SATA controller cards?
    Review suggestion: include Raid 0 vs. Raid 1 on Areca Raid 1210 controller cards, using Intel SSD vs. WD Raptor HD's.
    Maybe include other brands, such as High Point Rocket Raid, 3Ware, Apple's Raid card (for Mac Pro), etc.
    Reply
  • Drazick - Tuesday, July 21, 2009 - link

    How Come Intel Can't Compete The Sequential Performances Of Its Rivals?

    Especially the Writing performance.

    It seems if Indilinx will match the IO performances of the first Generation of Intel's SSD (It's very close) combining with its better sequential performance and price it will be a much better product.
    Reply
  • Sunday Ironfoot - Tuesday, July 21, 2009 - link

    It seems intel has sacrificed sequential performance for more real world performance. Most people don't spend all day copying lots of single large files. Reply
  • jimhsu - Wednesday, July 22, 2009 - link

    PCPer believes that the waveform for seq writes is clipped at 70 MB/s on purpose: http://www.pcper.com/article.php?aid=691&type=...">http://www.pcper.com/article.php?aid=691&type=...

    I would say most likely product differentiation. And maybe the fact that the X25 doesn't cache writes unlike Indilinx makes a difference.
    Reply
  • Anand Lal Shimpi - Tuesday, July 21, 2009 - link

    I'm not sure it's a question of why Intel can't, I think it's a conscious architectural decision. It's something I've been chasing down for months but I can't seem to put my finger on it just yet.

    Take care,
    Anand
    Reply

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