OCZ Agility 3 (240GB) Review
by Anand Lal Shimpi on May 24, 2011 2:53 AM ESTOCZ has been at the forefront of each generation of SandForce SSD release since the debut of the SF-1500 based Vertex Limited Edition. More recently the Vertex 3 was the first client SSD to use SandForce's SF-2281 controller. Many of you have written me asking if the Vertex 3 is worth the additional cost over the Vertex 2. Given that you can pick up a 120GB Vertex 2 for $210 ($180 after rebate), and a 120GB Vertex 3 will set you back $300 flat it's tough to recommend the latter despite the performance improvements. If you don't have a 6Gbps platform (e.g. Intel 6-series, AMD 8-series) the Vertex 2 vs. Vertex 3 decision is a little easier to make, otherwise the newer, faster Vertex 3 is quite tempting.
There's another issue holding users back from the Vertex 3: capacity. The Vertex 3 is available in 120, 240 and 480GB versions, there is no 60GB model. If you're on a budget or like to plan frequent but rational upgrades, the Vertex 3 can be a tough sell.
Enter the Agility 3, OCZ's mainstream SF-2281 drive.
Architecturally the Agility 3 is identical to the Vertex 3. You get the same controller running similar firmware, and as a result post similar peak performance stats (note the use of the word peak):
OCZ SF-2200 Lineup | ||||||||
Specs (6Gbps) | Agility 3 | Agility 3 120GB | Vertex 3 120GB | Agility 3 240GB | Vertex 3 240GB | Vertex 3 480GB | ||
Raw NAND Capacity | 64GB | 128GB | 128GB | 256GB | 256GB | 512GB | ||
Spare Area | ~6.3% | ~12.7% | ~12.7% | ~12.7% | ~12.7% | ~12.7% | ||
User Capacity | 55.8GB | 111.8GB | 111.8GB | 223.5GB | 223.5GB | 447.0GB | ||
RAISE | No | Yes | Yes | Yes | Yes | Yes | ||
Number of NAND Devices | 8 | 16 | 16 | 16 | 16 | 16 | ||
Number of die per Device | 1 | 1 | 1 | 2 | 2 | 4 | ||
NAND Type | ONFI 1.0 | ONFI 1.0 | ONFI 2.0 | ONFI 1.0 | ONFI 2.0 | ONFI 2.0 | ||
Max Read | Up to 525 MB/s | Up to 525 MB/s | Up to 550MB/s | Up to 525 MB/s | Up to 550MB/s | Up to 530MB/s | ||
Max Write | Up to 475 MB/s | Up to 500 MB/s | Up to 500MB/s | Up to 500 MB/s | Up to 520MB/s | Up to 450MB/s | ||
4KB Random Read | 10K IOPS | 20K IOPS | 20K IOPS | 35K IOPS | 40K IOPS | 50K IOPS | ||
4KB Random Write | 50K IOPS | 50K IOPS | 60K IOPS | 45K IOPS | 60K IOPS | 40K IOPS | ||
MSRP | $134.99 | $229.99 | $249.99 | $419.99 | $499.99 | $1799.99 | ||
Street Price | ? | ? | $299.99 | ? | $559.99 | $1799.99 |
OCZ has started publishing both peak and incompressible write performance data, but only on its product sheets. While peak performance isn't affected, incompressible performance is. Using AS-SSD as a benchmark, OCZ claims the Agility 3 is only able to muster about 200MB/s for peak sequential reads/writes on the 240GB drive - that's less than half the score the Vertex 3 gets in AS-SSD's read test. Our benchmarks, as you'll soon see, confirm the deficit.
If it's not the controller causing this, and it's not the firmware - then it's the NAND. The Agility 3 (and Solid 3) both use asynchronous NAND. What does that mean? Let's find out.
Asynchronous NAND: An ONFi History Lesson
It takes 50µs to read 8KB from a 25nm Intel NAND die. That works out to a staggering 156MB/s, from a single NAND die. Even the old 50nm stuff Intel used in the first X25-M could pull 4KB in 50µs or ~78MB/s. The original X25-M had 10 channels of NAND, giving it the ability to push nearly 800MB/s of data. Of course we never saw such speeds, as it's only one thing to read a few KB of data from a NAND array and dump it into a register. It's another thing entirely to transfer that data over an interface to the host controller.
ONFi 1.0 limited NAND performance considerably
Back in 2006 the Open NAND Flash Interface (ONFi) workgroup was formed with the task of defining a standardized interface for NAND Flash. Today, Intel and Micron are the chief supporters of ONFi while Toshiba and Samsung abide by a separate, comparable standard.
As is typically the case, the first standard out of the workgroup featured very limited performance. ONFi 1.0 topped out at 50MB/s, which was clearly the limiting factor in NAND transfer speed (see my example above). The original ONFi spec called for an asynchronous interface, as in one not driven by a clock signal. Most logic these days is synchronous, meaning it operates off of a host clock frequency. Depending on the architecture, all logic within a synchronously clocked system will execute/switch whenever the clock signal goes high, low or both. Asynchronous logic on the other hand looks for a separate signal, similar to a clock, but not widely distributed - more like a simple enable pin. In the asynchronous NAND world this is the role of the RE, WE and CLE (read/write/command-latch enable) signals.
ONFi 2.0 brought the move to source synchronous clocking, as well as double data rate (DDR) operation. Not only were ONFi 2.0 NAND devices tied to a clock frequency, transfers happened on both rising and falling edges of the clock - a similar transition was made in SDRAM over a decade ago. While ONFi 1.0 NAND was good for up to 50MB/s, ONFi 2.0 increased the interface speed to 133MB/s. Present day synchronous ONFi 2.1/2.2 NAND is no longer interface limited as the spec supports 166MB/s and 200MB/s operating modes. Work on ONFi 3.0 is being done now to take the interface up to 400MB/s.
The Agility 3
OCZ sent us a 240GB Agility 3 for review. Inside it looks like this:
You see the SF-2281 controller in its usual spot and to the right of it are eight 25nm Micron NAND devices. Flip the board over and you get another eight.
As always, we look at the part number to tell us what's going on. Micron's part numbers are a little different than Intel's but the key things to pay attention to here are the 128G (128Gbit packages, 16GB per package) and characters 11 and 14. Character 11 here is an F, which corresponds to 2 die per package (2 x 8GB 25nm die in each NAND device) while number 14 is an A, indicating that this is asynchronous NAND. To date I've only encountered 25nm synchronous (represented by the letter B) NAND, but as with any other silicon device there's always a cost savings if you can sacrifice performance.
Equipped with asynchronous NAND, the Agility 3's max performance is limited to 50MB/s per channel compared to 200MB/s per channel in the Vertex 3. The Vertex 3 doesn't come close to saturating its per-channel bandwidth so there's a chance that this change won't make much of a difference. To further tilt things in the Agility 3's favor, remember SandForce's controller throws away around 40% of all of your data thanks to its real time compression/deduplication algorithms - further reducing the NAND bandwidth requirements. When a Vertex 3 pushes 500MB/s that's not actual speed to NAND, it's just how fast the SF controller is completing its tasks. In a typical desktop user workload without too much in the way of incompressible data access, the Agility 3 should perform a lot like a Vertex 3.
Cost Savings and a 60GB Drive
I mentioned the only benefit to asynchronous NAND being a cost savings, if we go by OCZ's MSRPs the savings don't look too great at 120GB: here the Agility 3 is $229.99 vs. $249.99 according to OCZ. Street pricing tells a different (more expensive) story for the Vertex 3. The 120GB drive is more like $299.99, which would mean the Agility 3 (if its MSRP is accurate) would be a full $70 cheaper. Move to 240GB and the gap likely widens.
With the Agility 3, OCZ is also introducing a 60GB model. SandForce's NAND redundancy technology called RAISE, requires an entire NAND die be sacrificed and added to the spare area pool in the event of a NAND failure. At 25nm a single die is 8GB, which would mean a 64GB drive would lose 1/8 of its capacity just due to RAISE. Get rid of another 6.3% of the drive for the standard spare area and you're looking at a pretty high cost per usable gigabyte.
One feature of the SF-2200 firmware however is the ability to disable RAISE. I've never advocated it simply because I like the idea of being able to recover from a failed NAND die in the array, but at the 60GB capacity OCZ felt it was better left turned off (otherwise the drive would have to be sold as a 56GB drive instead).
Entire NAND die failures are pretty rare but it's still possible that one could happen. The 60GB Agility 3, as a result, makes a potential reliability tradeoff for capacity. Personally I'd like to see OCZ offer the option to enable RAISE, although I'm not sure if any user accessible utilities exist that would allow you to do that easily.
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 |
59 Comments
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cactusdog - Tuesday, May 24, 2011 - link
Anand can you get hold of the new Corsair Force series 3, preferably the GT version to test?A lot of us are waiting for a non-ocz sandforce 6 GBs drive.
Reiker - Tuesday, May 24, 2011 - link
I agree! I would really like to know if there will be ANY 120Gb SF2k drive that is up to spar with the 240Gb version...Love the work you´re doing Anandtech!
Minion4Hire - Tuesday, May 24, 2011 - link
I'd like to see how much of a performance difference exists between the 60 GB and 240 GB Agility 3s. I don't need 240 GBs for my OS and my important apps, so I'd be more interested in two or three 60 GB drives in RAID 0.... assuming the drives aren't horribly crippled and I'm not bandwidth limited by my controller.Mr Perfect - Tuesday, May 24, 2011 - link
Yes, please. The Force drives look interesting.Also, in the opening you touched briefly on the importance of the 64GB drives, could you test them as well? Looking at the difference between the 240GB and 120GB drives, you can't help but wonder what the 64GB drives will end up like.
Dracusis - Tuesday, May 24, 2011 - link
Yeah, Anand's SSD reviews are the best, they really make me feel like I know what I'm buying into. Would love to see more SF-2200 series drives benchmarked and discussed. Some performance numbers/thoughts on the Agility 3 60GB & 120GB variants would be nice too as there's a lot of performance differences between the Vertex 3 120 vs 240.Having all the Corsair Force 3's new drives on here would be brilliant - It must take a hellish amount of time to do all of these benchmarks though.
MrSpadge - Tuesday, May 24, 2011 - link
A roundup of 60 GB drives would be nice: Agility 3, Solid 3, some Sandforce 2 (34 and/or 25 nm) and Crucial C300 and C400.MrS
dhanson8652 - Tuesday, May 24, 2011 - link
+1 on the 60/64GB roundup. Definitely want to see those and the 120/128GB for any that don't fit like the X25V/M, Intel 320.Oxford Guy - Tuesday, May 24, 2011 - link
What I don't understand is why we have reviews of the 240 GB Vertex 3 and the 240 GB Agility 3 and yet...The 240 GB Vertex 2 is nowhere to be found in the charts!
anonapon - Tuesday, May 24, 2011 - link
I'm really interested in a review of the Corsair Force 3, too, or of any new Sandforce drive which can play well with the IRST drivers, which the OCZ V3 doesn't seem to do with consistency.gayannr - Tuesday, May 24, 2011 - link
Does Intel Stand a chance ? Probably NO! :-/