The Vertex 3 120GB

Whenever we review a new SSD many of you comment asking for performance of lower capacity drives. While we typically publish the specs for all of the drives in the lineup, we're usually only sampled a single capacity at launch. It's not usually the largest, but generally the second largest and definitely an indicator of the best performance you can expect to see from the family.

Just look at the reviews we've published this year alone:

Intel SSD 510 (240GB)
Intel SSD 320 (300GB)
Crucial m4 (256GB)

While we always request multiple capacities, it normally takes a little while for us to get those drives in.

When OCZ started manufacturing Vertex 3s for sale the first drives off of the line were 120GB, and thus the first shipping Vertex 3 we got our hands on was a more popular capacity. Sweet.

Let's first look at the expected performance differences between the 120GB Vertex 3 and the 240GB drive we previewed earlier this year:

OCZ Vertex 3 Lineup
Specs (6Gbps) 120GB 240GB 480GB
Max Read Up to 550MB/s Up to 550MB/s Up to 530MB/s
Max Write Up to 500MB/s Up to 520MB/s Up to 450MB/s
4KB Random Read 20K IOPS 40K IOPS 50K IOPS
4KB Random Write 60K IOPS 60K IOPS 40K IOPS
MSRP $249.99 $499.99 $1799.99

There's a slight drop in peak sequential performance and a big drop in random read speed. Remember our discussion of ratings from earlier? The Vertex 3 was of course rated before my recent conversations with OCZ, so we may not be getting the full picture here.

Inside the 120GB Vertex 3 are 16 Intel 25nm 64Gbit (8GB) NAND devices. Each device has a single 25nm 64Gbit die inside it, with the capacity of a single die reserved for RAISE in addition to the typical ~7% spare area.

The 240GB pre-production drive we previewed by comparison had twice as many 25nm die per package (2 x 64Gbit per NAND device vs. 1 x 64Gbit). If you read our SF-2000 launch article one of the major advantages of the SF-2000 controller has over its predecessor is the ability to activate twice as many NAND die at the same time. What does all of this mean for performance? We're about to find out.

RC or MP Firmware?

When the first SF-1500/1200 drives shipped last year they actually shipped with SandForce's release candidate (RC) firmware. Those who read initial coverage of the Corsair Force F100 drives learned that the hard way. Mass production (MP) firmware followed with bug fixes and threatened to change performance on some drives (the latter was resolved without anyone losing any performance thankfully).

Before we get to the Vertex 3 we have to talk a bit about how validation works with SandForce and its partners. Keep in mind that SandForce is still a pretty small company, so while it does a lot of testing and validation internally the company leans heavily on its partners to also shoulder the burden of validation. As a result drive/firmware validation is split among both SandForce and its partners. This approach allows SF drives to be validated heavier than if only one of the sides did all of the testing. While SandForce provides the original firmware, it's the partner's decision whether or not to ship drives based on how comfortable they feel with their validation. SandForce's validation suite includes both client and enterprise tests, which lengthens the validation time.

The shipping Vertex 3s are using RC firmware from SandForce, the MP label can't be assigned to anything that hasn't completely gone through SandForce's validation suite. However, SF assured me that there are no known issues that would preclude the Vertex 3 from being released today. From OCZ's perspective, the Vertex 3 is fully validated for client use (not enterprise). Some features (such as 0% over provisioning) aren't fully validated and thus are disabled in this release of the firmware. OCZ and SandForce both assure me that the SF-2200 has been through a much more strenuous validation process than anything before it.

Apparently the reason for OCZ missing the March launch timeframe for the Vertex 3 was a firmware bug that was discovered in validation that impacted 2011 MacBook Pro owners. Admittedly this has probably been the smoothest testing experience I've encountered with any newly launched SandForce drive, but there's still a lot of work to be done. Regardless of the performance results, if you want to be safe you'll want to wait before pulling the trigger on the Vertex 3. SandForce tells me that the only difference between RC and MP firmware this round is purely the amount of time spend in testing - there are no known issues for client drives. Even knowing that, these are still unproven drives - approach with caution.

The Test

CPU

Intel Core i7 965 running at 3.2GHz (Turbo & EIST Disabled)

Intel Core i7 2600K running at 3.4GHz (Turbo & EIST Disabled) - for AT SB 2011, AS SSD & ATTO

Motherboard:

Intel DX58SO (Intel X58)

Intel H67 Motherboard

Chipset:

Intel X58 + Marvell SATA 6Gbps PCIe

Intel H67
Chipset Drivers:

Intel 9.1.1.1015 + Intel IMSM 8.9

Intel 9.1.1.1015 + Intel RST 10.2

Memory: Qimonda DDR3-1333 4 x 1GB (7-7-7-20)
Video Card: eVGA GeForce GTX 285
Video Drivers: NVIDIA ForceWare 190.38 64-bit
Desktop Resolution: 1920 x 1200
OS: Windows 7 x64

 

OCZ Listens, Again Random & Sequential Performance
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  • GrizzledYoungMan - Thursday, April 7, 2011 - link

    Thank you Anand for your vigilance and consumer advocacy. OCZ's disorganization remains a problem for their customers (and I'm one of them, running OCZ SSDs in all my systems).

    Still, I am disappointed by the fact that your benchmarks continue to exaggerate the different between SSDs, instead of realistically portraying the difference between SSDs that a user might notice in daily operation. Follow my thinking:

    1. The main goal of buy an SSD, or upgrading an SSD from another SSD, is to improve system responsiveness as it appears to the user.
    2. No user particularly cares about the raw performance of their drives as much as how much performance is really available in real-world use.
    3. Thus, tests should focus on timing and comparing common operations, in both solo tasking and multi tasking scenarios (like booting, application loading, large catalog/edit files/database loading and manipulation for heavy duty desktop content creation applications and so on).
    4. In particular, Sandforce is a huge concern when comparing benchmarks to real world use. Sure, they kill in the benchmarks everyone uses, but many of the most resource intensive (and especially disk intensive) desktop tasks are content creation related (photo and video, primarily) which use incompressible files. How is it that no one has investigated the performance of Sandforce in these situations?

    Users here have complained that if we did only #3, only a small difference between SSDs would be apparent. But to my eyes, THAT IS EXACTLY WHAT WE NEED TO KNOW. If the performance delta between generations of SSDs is not really significant, and the price isn't moving, then this is a problem for the industry and consumers alike.

    However, creating the perception with unrealistically heavy trace programs that SSDs have significant performance differences (or that different flash types and processes have significant performance differences) when you haven't yet demonstrated that there are real world performance differences in terms of system responsiveness (if anything, you've admitted the opposite on a few occasions) strikes me as a well intentioned but ultimately irresponsible testing method.

    I'm sure it's exciting to stick it to OCZ. But really, they are one manufacturer among many, and not the core issue. The core issue is this charade we're all participating in, in which we pretend to understand how SSDs really improve the user experience when we have barely scratched the surface of this issue (or are even heading in the wrong direction).
  • GrizzledYoungMan - Thursday, April 7, 2011 - link

    Wow, typos galore there. Too early, too much going on, too little coffee. Sorry.
  • kmmatney - Thursday, April 7, 2011 - link

    The Anand Storage Bench 2010 "Typical workload" is about as close as you can get (IMO) to a real work test. Maybe its a heavier multitasking scenario that most of us would use, but I think its the best test out there to give a real-world assessment of SSDs. Just read the description of the test - I think it already has what you are asking for:

    "The first in our benchmark suite is a light/typical usage case. The Windows 7 system is loaded with Firefox, Office 2007 and Adobe Reader among other applications. With Firefox we browse web pages like Facebook, AnandTech, Digg and other sites. Outlook is also running and we use it to check emails, create and send a message with a PDF attachment. Adobe Reader is used to view some PDFs. Excel 2007 is used to create a spreadsheet, graphs and save the document. The same goes for Word 2007. We open and step through a presentation in PowerPoint 2007 received as an email attachment before saving it to the desktop. Finally we watch a bit of a Firefly episode in Windows Media Player 11."
  • GrizzledYoungMan - Friday, April 8, 2011 - link

    Actually, the storage bench is the opposite of what I'm asking for. I've written about this a couple of times, but my complaint is basically that benchmarks exaggerate the difference between SSDs, that in real world use, it might be impossible to tell one apart from another.

    The Anand Storage Benches might be the worst offenders in this regard, since they dutifully exaggerate the difference between SSD generations while giving the appearance of a highly precise way to test "real world" workloads.

    In particular, the Sandforce architecture is an area of concern. Sure, it blows away everyone in the benchmarks, but the fact that it becomes HDD-slow when given an incompressible workload really has to be explored further. After all, the most disk-intensive desktop workloads all involve manipulating highly compressed (ie, not compressible further) image files, video files and to a lesser degree audio files. One more than one occasion, I've seen people use Sandforce drives as scratch disks for this sort of thing (given their high sequential writes, it would seem ideal) and been deeply disappointed by the resulting performance.

    No response yet from Anand on this. But I'll keep posting. It's nothing personal - if anything, I'm posting here out of respect for Anand's leadership in testing.
  • KenPC - Thursday, April 7, 2011 - link

    Nice write up. And - excellent results getting OCZ to grow up a little bit more.

    As a consumer, the solution of SKU's based on NAND will be confusing and complicated. How the heck am I supposed to know if the xxx.34 or the xxx.25 or some future xxxx.Hyn34 or xxxx.IMFT25 is the one that will meet one of the many performance levels offered?
    A complicating factor that you mentioned in the article, is that for a specific manufacturer and process size, there can be varying levels of NAND performance.

    I strongly urge you to consider working with OCZ to 'bin' the drives with establshed benchmarks that focus on BOTH random and TRUE non-conmpressible data rates. SKU suffixes then describe the binned performance.

    You also have the opportunity to help set SSD 'industry standard benchmarks' here!

    Then give OCZ the license to meet those binned performance levels with the best/lowest cost methods they can establish.

    But until OCZ comes up with some 'assured performance level', OCZ is just off of my SSD map.

    KenPC
  • KenPC - Thursday, April 7, 2011 - link

    Yes, a reply to my own post......

    But how about a unique and novel idea?

    What if.. a Vertex 2 is a Vertex 2 is a Vertex 2, as measured by ALL of the '4 pillars' of SSD performance?

    Vertex 3's are Vertex 3's, and so on......

    If different nand/fw/controller results in any of the parameters 'out of spec', then that version never ships as a 'Vertex 2'.

    After all, varying levels of performance is why there is a vertex, a vertex 2, and an onyx and an agility, and an onyx2, and an agility2, and etc etc within the OCZ SSD line.

    Why should the consumer need to have to look a second tier of detail to know the product performance?

    KenPC
  • strikeback03 - Friday, April 8, 2011 - link

    So any time Sandforce/OCZ upgrades the firmware you need a new product name? If something happened in the IMFT process and they had to buy up Samsung NAND instead, new product? And of course everyone wants to wait for reviews of the new drives before buying.

    I personally don't mind them changing stuff as necessary so long as they maintain some minimum performance that they advertise. The real-world benchmarks in the Storage Review articles showed a 2-5% difference, to me that is within margin of error and not a problem for anyone not benchmarking for fun. The Hynix NAND performing at only ~70% of the old ones are a problem, not so much the 25nm ones.
  • semo - Thursday, April 7, 2011 - link

    You've done well. I hope you continue to do this kind of work as it benefits the general public and in this particular case, keeps the bad PR away from a very promising technology.

    The OCZ Core and other jmicron drives did plenty to slow down the progress of SSD adoption in to the mainstream. You caught the problem earlier than anyone else and fixed it. This time around it took you longer because of other high priority projects. I think your detective and lobbying work are what keeps us techies checking AT daily. In my opinion, the Vertex 2 section of this article deserves home page space and a catchy title!

    Finally, let's not forget that OCZ have not yet fixed this issue. People may still have 25nm drives without knowing it or be capable of understanding the problems. OCZ must issue a recall of all mislabeled drives.
  • Shadowmaster625 - Thursday, April 7, 2011 - link

    It is ridiculous to expect a company to release so many SKUs based on varying NAND types. It costs a company big money to release and keep track of all those SKUs. When you look at the actual real world differences between the different NAND types, it only comes down to a few percentage points of difference. It is like comparing different types of motherboard RAM. It is a waste of time and money to even bother looking at one vs another. OCZ should just tell you all to go pound sand. I suspect they will eventually, if you keep nitpicking like this. The 25nm Vertex 2 is virtually identical to the 34nm version. If you run a complete battery of real world and synthetic tests, you clearly see that they are within a few % of each other. There is no reason for OCZ to waste any more time or money trying to placate a nitpicking nerd mob.
  • semo - Thursday, April 7, 2011 - link

    The real issue was that it wasn't just a few % difference. Some V2 drives were nowhere near the rated capacity with the 25nm NAND. So if you bought 2 V2 drives and they happen to be different versions, RAID wouldn't work. There is still no way to confirm if the V2 you are trying to buy is one of the affected drives as OCZ haven't issued a recall or taken out affected drives from retail shelves. Best way to avoid unnecesary hassle is not to buy OCZ at all. Corsair did a much better job at informing the customer about the transition:
    http://www.corsair.com/blog/force25nm/

    The performance difference was higher than a few % as well.

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