Intel's 3rd Generation X25-M SSD Specs Revealed
by Anand Lal Shimpi on October 5, 2010 12:04 PM ESTWhat's this? The long awaited specs for Intel's third generation SSD? Indeed.
Internally it’s called the Postville Refresh (the X25-M G2 carried the Postville codename), but externally it carries the same X25-M brand we’ve seen since 2008. The new drive uses 25nm IMFT Flash, which means we should get roughly twice the capacity at the same price. While Intel is sampling 25nm MLC NAND today it's unclear whether or not we'll see drives available this year. I've heard that there's still a lot of tuning that needs to be done on the 25nm process before we get to production quality NAND. The third generation drives will be available somewhere in the Q4 2010 - Q1 2011 timeframe in capacities ranging from 40GB (X25-V) all the way up to 600GB.
Despite the Q1 release of Intel’s 6-series chipsets, Intel is listing the new X25-M as being 3Gbps SATA only. The SATA implementation has been updated to support ATA8-ACS so it’s possible we may see official 6Gbps support once Intel has a chipset with native support.
The new drive’s performance specs are much improved. The comparison between old and new is below:
| Intel Consumer SSD Comparison | ||||
| Intel X25-M G2 (34nm) | Intel X25-M G3 (25nm) | |||
| Codename | Postville | Postville Refresh | ||
| Capacities | 80/160GB | 80/160/300/600GB | ||
| NAND | IMFT 34nm MLC | IMFT 25nm MLC | ||
| Sequential Performance Read/Write | Up to 250/100 MB/s | Up to 250/170 MB/s | ||
| Random 4KB Performance Read/Write | Up to 35K/8.6K IOPS | Up to 50K/40K IOPS | ||
| Max Power Consumption Active/Idle | 3.0/0.06W | 6.0/0.075W | ||
| Total 4KB Random Writes (Drive Lifespan) | 7.5TB - 15TB | 30TB - 60TB | ||
| Power Safe Write Cache | No | Yes | ||
| Form Factors | 1.8" & 2.5" | 1.8" & 2.5" | ||
| Security | ATA Password | ATA Password + AES-128 | ||
If these numbers are accurate, the new Intel drive should be roughly equal to Crucial’s RealSSD C300 and SandForce SF-1200 based drives. There are many different ways to measure this data however so the numbers may be higher or lower in our tests. Note that performance could also go up by the time drives are available as there's still a lot of tuning going on right now. I'd say that at these performance levels Intel had better be very aggressive with pricing because I'm expecting much better from the next-generation SandForce drives.
Write amplification appears to be more under control with the third gen X25-M. Intel upgraded the total 4KB random writes spec from 7.5TB - 15TB on the G2 to a much higher (and wider) range of 30TB to 60TB depending on drive and spare area.
Intel hasn’t disclosed any information about spare area, but given the huge increase in longevity of the drives I suspect that spare area has gone up as well (at least on the larger drives).
The G1 and G2 drives didn’t store any user data in the off-controller DRAM, the third gen drive changes that. A large part of why the C300 is so quick has to do with its large external DRAM, something Intel has avoided implementing in the past due to the associated risk of data loss. Intel refers to the 3rd gen X25-M has having a power safe write cache, which sounds to me like it has an external DRAM paired with a big enough capacitor to flush the cache in the case of sudden power loss.
Full disk encryption is the next big feature on the Postville Refresh. You get AES-128 support on the consumer drives. I’m guessing there’s a new version of the SSD Toolbox in the works as Intel is also promising Windows based firmware updates.
The new X25-M will be available in both 1.8” and 2.5” versions. The 1.8” drive tops out at 300GB, you’ll need the 2.5” form factor for 600GB.
In addition to the new X25-M there’s a new X25-E due out in Q1 2011. Codenamed Lyndonville, this will be the first Intel Enterprise SSD to use MLC flash. It’s not quite the same MLC used on the consumer drives but rather a modification of the 25nm process that trades data retention for longevity.
Standard MLC will last for 12 months after all erase/program cycles have been consumed. Enterprise grade MLC will last only 3 months after exhausting all erase/program cycles but will instead support many more cycles per cell.
The X25-E improves specs compared to its predecessor:
| Intel Enterprise SSD Comparison | ||||
| Intel X25-E (50nm) | Intel X25-E (25nm) | |||
| Codename | Ephraim | Lyndonville | ||
| Capacities | 32/64GB | 100/200/400GB | ||
| NAND | IMFT 50nm SLC | IMFT 25nm eMLC | ||
| Sequential Performance Read/Write | Up to 250/170 MB/s | Up to 250/200 MB/s | ||
| Random 4KB Performance Read/Write | Up to 35K/3.3K IOPS | Up to 50K/5K IOPS | ||
| Max Power Consumption Active/Idle | 3.0/0.06W | 5.0/0.095W | ||
| Total 4KB Random Writes (Drive Lifespan) |
32GB: 1PB 64GB: 2PB |
100GB: 900TB - 1PB 200GB: 1PB - 2PB 400GB: 1.4PB |
||
| Power Safe Write Cache | No | Yes | ||
| Form Factors | 2.5" | 2.5" | ||
| Security | ATA Password | ATA Password + AES-128 | ||
Larger capacities, higher performance, AES-128 support and comparable lifespans to the old X25-Es are all in store early next year. Note that Intel tests 4KB random write performance differently on enterprise vs. consumer drivers so you can’t directly compare the numbers between the X25-M and X25-E. The X25-E will be 2.5” only.
Intel isn’t the only one working on a controller update. SandForce and Indilinx are both heading towards production versions of their next-generation controllers. I expect we’ll see preview class hardware before the end of the year, with mainstream availability in Q1 2011.
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zing99 - Saturday, October 23, 2010 - link
@Makaveli, If you read the article in the link I posted, you'd know that the video feed was only ONE example that would entail a lot of writing to the drive. I have no use for writing video to the drive, but there are tons of other applications that write lots of data. So I think you actually missed the point here. Of course the advantage of the SSD is seek times/random read etc. But the amount of data quoted in this article for the life span is really very small. So low I hink it must be a typo. Just making a mirror image of another HD or moving 200GB back and forth in a server would wear that out. Again, my point was that the longevity is usually thought to be far higher than what this article states. What I said had NOTHING to do with the desire to write video to the drive.DoktorSleepless - Wednesday, October 6, 2010 - link
It's really hard to get a sense of the type of performance you can get from ssds in the real world even when using pcmark vantage, especially for games. I would love to see more real gaming tests like was done here.http://www.anandtech.com/show/2614/14
iwodo - Wednesday, October 6, 2010 - link
I posted the questions in forum, and asked, and with Anand's articles, come to the basic conclusion is, we have reach the optimum speed gain with SSD.i.e the bottleneck no longer lies within SSD, it is the CPU who could not decode and operate fast enough , or OS and software are not totally optimized for SSD. At least that is with the case of Sandforce.
Pegleg7 - Wednesday, October 6, 2010 - link
What exactly does "data retention" mean in the article? The duration the drive will store data from the point it is completely unpowered?I'm assuming "longevity" corresponds to how many times the drive can be rewritten.
TinyTeeth - Wednesday, October 6, 2010 - link
The specs that matter for loading applications, game levels etc. and booting the OS (as opposed to copying large files) fast are random IOPS right? And really nothing else?Pjotr - Wednesday, October 6, 2010 - link
6.0W max power usage means it passes all common hard drives today. Will this be a problem in future generations of SSDs, that power becomes an issue. Laptops?Makaveli - Wednesday, October 6, 2010 - link
6 watts does seem alot, but I believe someone else already touched on this a few pages back. Since the SSD is so much faster than a Hard drive it will not stay at full load as long as a hard drive would. So the shorten amount of time to complete task should balance out the slight higher load over the previous gen.Guspaz - Wednesday, October 6, 2010 - link
You're going to have to do better than 170MB/s sustained writes. Current generation drives (and even previous-generation drives) beat that handily; I expect Intel's *next* generation drives to be at least as good as the first-gen Indilinx drives!AnnihilatorX - Wednesday, October 6, 2010 - link
Spam above, don't click the link thinking it's an article about SSD trim lolPeanutGallery - Friday, October 8, 2010 - link
I'm planning to buy a 13 inch MacBook Pro soon, and maybe install one of the new Intel SSDs when they come out.Will I be able to use the hardware encryption the SSD? How? Does the usage of BootCamp affect the answer?