A year ago whenever I'd request an SSD for review I'd usually get a 128GB drive built using 3x nm 4GB 2-bit MLC NAND die. These days the standard review capacity is twice that as most drives ship with 25nm NAND, using 8GB die. Seeing a bunch of scores for 240GB+ drives however is frustrating to all involved. At these capacities you're almost always looking at two die per NAND device, which has significant performance benefits due to interleaving. Most SSD controllers have eight NAND channels and with sixteen NAND deviecs with two die per device that's four NAND die that the controller can interleave access between for each channel. The 128GB drives by comparison halve the number of NAND, which only allows the controller to interleave requests among two die.


How read interleaving works on a single channel

Not only are these 240GB+ drives the best case performance you'd see from a particular SSD, they are also very expensive. At around $2/GB you're looking at over $500 for a high end 240GB+ SSD. I've spent the past few weeks gathering modern SSDs with 128GB of NAND on-board to provide a look at a more balanced point in the price/capacity spectrum.

Mid-Range 2011 SSD Roundup
Specs (6Gbps) Corsair P3 128GB Crucial RealSSD C300 128GB Intel SSD 320 160GB Intel SSD 510 120GB OCZ Agility 3 120GB OCZ Vertex 3 120GB
Controller Marvell 6Gbps Marvell 6Gbps Intel 3Gbps Marvell 6Gbps SF-2281 SF-2281
Raw NAND Capacity 128GB 128GB 176GB 128GB 128GB 128GB
Spare Area ~6.9% ~6.9% ~15.3% ~12.7% ~12.7% ~12.7%
User Capacity 119.2GB 119.2GB 149.0GB 111.8GB 111.8GB 111.8GB
Number of NAND Devices 8 16 12 16 16 16
Number of die per Device 4 2 1 - 2 2 1 1
NAND Type 32nm Toggle 34nm ONFI 2.0 25nm ONFI 2.1 34nm ONFI 1.0 25nm ONFI 2.1 25nm ONFI 2.1
Street Price $229.99 $234.99 $304.99 $284.49 $279.99 $252.99
Cost Per GB $1.797 $1.836 $1.906 $2.222 $2.187 $1.976

Corsair Performance Series 3

The first drive in the roundup is the one I've had the longest: Corsair's P3.

The P3 is based on the same Marvell controller used by Crucial in the C300 and Intel's SSD 510, however it's using what appears to be Marvell's standard firmware and as of yet Corsair hasn't provided any firmware updates to the drive. Internally the P3 uses 32nm Toshiba NAND on a very small PCB:

There are 8 NAND devices, making this a fully populated controller. Each NAND device has four 32nm die internally:

At $229.99 the P3-128 is the most affordable drive in our roundup, and it's a 6Gbps drive so it should be able to post some pretty high sequential numbers.

Crucial RealSSD C300

The C300 is nothing new, we reviewed this drive last year. I still don't have a 128GB version of the updated m4, however as we discovered in our review of the 256GB m4, performance isn't necessarily better than the C300. In many cases the m4 is actually slower than the C300.

The 128GB drive uses Marvell's 6Gbps controller (with Micron's own firmware) and features 34nm ONFI 2.0 NAND:

With sixteen NAND devices on the PCB, each package has two 4GB die inside it.

The C300 is pretty affordable by today's standards. The 128GB drive we tested here is selling for $234.99.

Intel SSD 320

Based on Intel's X25-M G2 controller but with new firmware the 320 adds features like real time encryption, however 6Gbps isn't in the cards with this drive:

Intel sent along the 160GB version of the 320, which has a pretty unusual NAND configuration. Remember Intel's controller is a 10-channel architecture and on the front of the PCB we have ten 25nm NAND devices:

These are 16GB NAND devices (two 8GB NAND die per package). That alone is good for the 160GB drive capacity, but the 320 needs more spare area than its predecessor so 160GB won't cut it. Flip the PCB over and you see two 8GB NAND devices:

I'm not entirely sure how Intel is striping data across all of the NAND. It's likely that Intel is simply just interleaving more operations on two of the channels. The 160GB 320 is the most expensive drive here at $304.99, but that's mostly because of the drive's capacity. In terms of cost per GB, the 320 is middle of the road here at $1.906 per GB.

Intel SSD 510

While the 320 is Intel's mainstream drive, the 510 is the high performance 6Gbps offering for enthusiasts. Intel is using Marvell's 6Gbps controller, again with its own custom firmware. The drive uses Intel's 34nm NAND and doesn't support the encryption features of the 320.

Since it uses 34nm NAND, Intel has 16 NAND devices internally each with two 4GB die:

The 510 is our second most expensive drive here at $284.49 and the most expensive on a cost-per-GB basis as well ($2.222):

OCZ's Agility 3 & Vertex 3

OCZ was the first to ship a SF-2281 based drive and now there are multiple offerings in the OCZ lineup. The Vertex 3 uses 25nm IMFT synchronous NAND, while the Agility 3 uses 25nm IMFT asynchronous NAND. As I hinted at in our review of the 240GB Agility 3, I fully expect a lot of pricing fluctuation between these two lines depending on availability of NAND. As a result, today you can buy a Vertex 3 from Newegg for less than you can an Agility 3. Obviously at the same price the Vertex 3 is the recommended drive but I expect to see these two flip flop more in the future.

Internally the Agility 3 (and Vertex 3) use 16 NAND devices with one die per device:

OCZ is very aggressive on Vertex 3 pricing, you can get the 120GB version today for $252.99.

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

 

Random & Sequential Performance
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  • icrf - Wednesday, June 8, 2011 - link

    Don't forget the Corsair Force Series 3. The manufacturer announced specs are very impressive. We just need it in Anand's hands to see how honest they are.

    I'm trying to decide between the Vertex 3, Force Series 3, and M4 @ 120 GB. I've seen some of those other reviews on the M4, and it really does seem like it degrades more gracefully than anyone else with the capacity drop, so it could be a real contender @ 120 GB.
  • DigitalFreak - Tuesday, June 7, 2011 - link

    "Combine that with Intel's track record for reliability"

    Hasn't Intel had multiple issues with their drives that caused data loss?
  • Anand Lal Shimpi - Tuesday, June 7, 2011 - link

    All of the SSD vendors have had issues of one form or another, Intel seems to have the lowest return rates however (at least based on the only published data at this point - it is supported by the failures I've noticed first hand however).
  • MrAv8er - Tuesday, June 7, 2011 - link

    Yes they have their issues. And the reliability question between the Vertex 3 and the Intel 510 is an interesting one. I just bought an I510 120GB over the Vertex 3 because of the reviews posted at Newegg. Complaints ran in the high teens for total failures, which I found too distastfull to accept, therefore I opted to go Intel which faired much better in the reviews. HOWEVER, that being said, I had an 80GB Intel G1 in my rig running Vista 64 coming up 2 years ago. It bricked itself at about the 7 week mark. Intel eventually replaced it, but the whole process took over 3 weeks.
  • zhill - Tuesday, June 7, 2011 - link

    Good review, another set of excellent data points when considering SSDs. I am actually torn between the older Vertex 2 240GB ($390 on amazon, or $1.6/GB) and a new drive like the 320 300GB or 510 250GB, it will be slower, but for the price it's a sweet deal--as long as it actually works and doesn't become a brick.

    I would be interested in seeing a power consumption graph for the entire StorageBench (or maybe just the light workload) run on each drive. I just wonder to what extent "speed to idle" impacts SSDs as it does in CPUs. It may be that the changes from load to idle are too slow to seriously affect the overall power draw, but that could also very by manufacturer. I think that would give a better perspective on the power story than just the idle and load numbers.
  • casteve - Tuesday, June 7, 2011 - link

    ~120GB is the sweet spot for speed/price. Glad to see some maturation in performance - now we can pretty much pick based on firmware maturity/stability and product reliability.
  • jwilliams4200 - Tuesday, June 7, 2011 - link

    ANAND:

    Isn't the flash on the back of the Intel 320 board likely used for the XOR parity / RAID-4-like feature of the 320 series? I'm not sure why you did not mention that....
  • 24 db/octave - Tuesday, June 7, 2011 - link

    With all the various benchmarks available, which is the closest one that would best predict performance as a Photoshop scratch drive? (Not the Windows or application drive.) I think for Photoshop scratch, it is sequential uncompressed writes & reads, that matters most, but I'm not positive.

    Thanks, Alan
  • buzznut - Tuesday, June 7, 2011 - link

    I also wanted to add my thanks for continually providing the most comprehensive and pertinent coverage of SSDs. Certainly right now the 120GB range hits the sweet spot for performance/real estate/value. I have not seen much coverage of the corsair drives yet, so this is great. Bigger drives are prohibitively expensive for the average user. But current drives are more useful than as just boot drives, it makes sense to have enough room to put your favorite programs on.

    I still think the Vertex3 is the choice for enthusiasts, although its nice to see that intel is still making excellent drives where reliability is key. I am hoping to pick up a vertex3 in the fall after bulldozer hits the desktop. I am sure that firmware will mature by then.
  • GrizzledYoungMan - Tuesday, June 7, 2011 - link

    Question!

    Would appreciate thoughts on this. I'm on a P55 motherboard, with a free x16 slot. If I wanted to use one of the 6Gbps drives with an add-in controller, what sort of performance hit would I be looking at, best case scenario? And which add-in card to use?

    Thanks! Also, this review was pretty darned useful. Bravo.

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