AnandTech Storage Bench 2011

Several years ago we introduced our AnandTech Storage Bench, a suite of benchmarks that took traces of real OS/application usage and played them back in a repeatable manner. Anand personally assembled the traces out of frustration with the majority of what we have today in terms of SSD benchmarks.

Although the AnandTech Storage Bench tests did a good job of characterizing SSD performance, they weren't stressful enough. All of the tests performed less than 10GB of reads/writes and typically involved only 4GB of writes specifically. That's not even enough exceed the spare area on most SSDs. Most canned SSD benchmarks don't even come close to writing a single gigabyte of data, but that doesn't mean that simply writing 4GB is acceptable.

Originally we kept the benchmarks short enough that they wouldn't be a burden to run (~30 minutes) but long enough that they were representative of what a power user might do with their system.

The next step was to create what we referred to as the Mother of All SSD Benchmarks (MOASB). Rather than only writing 4GB of data to the drive, this benchmark writes 106.32GB. It's the load you'd put on a drive after nearly two weeks of constant usage. And it takes a long time to run.

The MOASB, officially called AnandTech Storage Bench 2011 - Heavy Workload, mainly focuses on the times when your I/O activity is the highest. There is a lot of downloading and application installing that happens during the course of this test. The thinking was that it's during application installs, file copies, downloading and multitasking with all of this that you can really notice performance differences between drives.

We tried to cover as many bases as possible with the software incorporated into this test. There's a lot of photo editing in Photoshop, HTML editing in Dreamweaver, web browsing, game playing/level loading (Starcraft II & WoW are both a part of the test) as well as general use stuff (application installing, virus scanning). We included a large amount of email downloading, document creation and editing as well. To top it all off we even use Visual Studio 2008 to build Chromium during the test.

The test has 2,168,893 read operations and 1,783,447 write operations. The IO breakdown is as follows:

AnandTech Storage Bench 2011 - Heavy Workload IO Breakdown
IO Size % of Total
4KB 28%
16KB 10%
32KB 10%
64KB 4%

Only 42% of all operations are sequential, the rest range from pseudo to fully random (with most falling in the pseudo-random category). Average queue depth is 4.625 IOs, with 59% of operations taking place in an IO queue of 1.

Many of you have asked for a better way to really characterize performance. Simply looking at IOPS doesn't really say much. As a result we're going to be presenting Storage Bench 2011 data in a slightly different way. We'll have performance represented as Average MB/s, with higher numbers being better. At the same time we'll be reporting how long the SSD was busy while running this test. These disk busy graphs will show you exactly how much time was shaved off by using a faster drive vs. a slower one during the course of this test. Finally, we will also break out performance into reads, writes and combined. The reason we do this is to help balance out the fact that this test is unusually write intensive, which can often hide the benefits of a drive with good read performance.

There's also a new light workload for 2011. This is a far more reasonable, typical every day use case benchmark. Lots of web browsing, photo editing (but with a greater focus on photo consumption), video playback as well as some application installs and gaming. This test isn't nearly as write intensive as the MOASB but it's still multiple times more write intensive than what we were running in 2010.

These two benchmarks alone are not enough to characterize the performance of a drive, but hopefully along with the rest of our tests they will help provide a better idea. The testbed for Storage Bench 2011 has changed as well. We're now using a Sandy Bridge platform with full 6Gbps support for these tests.

AnandTech Storage Bench 2011 - Heavy Workload

We'll start out by looking at average data rate throughout our heavy workload test:

Heavy Workload 2011 - Average Data Rate

The Vector 150 is a bit slower than the original Vector in our 2011 Heavy workload test but the difference isn't significant. The slight performance loss here is compensated for by the increased IO consistency. I decided not to include all of the graphs here since the average data rate is the only truly meaningful data point these days but you can still find the complete dataset in our Bench.

AnandTech Storage Bench 2011 - Light Workload

Our light workload actually has more write operations than read operations. The split is as follows: 372,630 reads and 459,709 writes. The relatively close read/write ratio does better mimic a typical light workload (although even lighter workloads would be far more read centric). The I/O breakdown is similar to the heavy workload at small IOs, however you'll notice that there are far fewer large IO transfers:

AnandTech Storage Bench 2011 - Light Workload IO Breakdown
IO Size % of Total
4KB 27%
16KB 8%
32KB 6%
64KB 5%

Light Workload 2011 - Average Data Rate

Performance vs Transfer Size Power Consumption
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  • ssdpro - Thursday, November 7, 2013 - link

    Looks pretty good. I like that it is certified for 50GB/day - much higher than the original which makes me think the nand is better. Price will need to get down to 120 or so though, that 1GB/$1 is critical.
  • Solid State Brain - Thursday, November 7, 2013 - link

    OCZ indeed have managed fooling people that these drives are much better than the old ones.
    Any drive with 3k P/E writes MLC NAND from 128 GB and up, write endurance wise should be able to support at the very least 50 GB of writes per day for 5 years, even taking into account a rather high write amplification of 4.5-5.

    It's all mostly about how much manufacturers are willing to risk cannibalizing their enterprise lineup. I don't think OCZ has much left to lose at this point.
  • Guspaz - Thursday, November 7, 2013 - link

    When a company with a reputation for terrible reliability has their review sample fail, that's a pretty good sign that their reliability is still terrible.
  • romrunning - Thursday, November 7, 2013 - link

    Fool me once, shame on you. Fool me twice... or 3 times... or 4 times...
  • geniekid - Thursday, November 7, 2013 - link

    Fool me once, strike one. Fool me twice, strike...three.
  • Guspaz - Thursday, November 7, 2013 - link

    Sadly, this was the experience of a friend who made the mistake of buying an OCZ drive. It failed, so he RMA'd it. The replacement failed. So he RMA'd that. THAT replacement failed... Eventually he gave up and bought an Intel drive, which... didn't fail.
  • Samus - Friday, November 8, 2013 - link

    My last OCZ drive that failed was RMA'ed and the replacement eBayed. Learned my lesson. That was a few years ago, but at the time, NO other drives were failing in OCZ fashion.

    Kingston SSDNOW, Crucial C300, Intel X25-M/320, Samsung 700-series...they weren't as fast, but they also rarely failed.
  • deeps6x - Friday, November 8, 2013 - link

    Yep, NEVER AGAIN for me.

    Much cheaper EVO looks like the bang for the buck winner still. Every six months there is something significantly better for less cost anyway. Why pay premium prices for such a short amount of time at the 'top'? Buy the best 'bang for the buck' products as much as possible.
  • djscrew - Saturday, November 9, 2013 - link

    my 2nd gen OCZ Revodrive 128 gb has been going strong for 3 yrs
  • Senti - Thursday, November 7, 2013 - link

    Buying OCZ SSD is suicide. Even with impressive hardware it's just not worth the problems. I can tell as the user of quite a premium drive from them: Revodrive 3. No TRIM support, drivers only for Win7 (and not even planned for anything else), horrible boot times (due to its bios insisting on showing some useless information, you can even press Space to reduce this time that proves that it would be easy to improve the situation if the company was willing to improve things as users asked).

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