Rather than losing data through power interruptions, it became clear that the OCZ units had actually crapped out during "heavy concurrent read/write operations". So the whole premise for this stunt was flawed.
How is the premise flawed? He initially suspected the OCZ units were failing due to power loss, however through testing found the real root cause for their failure. He continued to test his initial suspicion on further units to ensure that they actually did what they were supposed to do...
I can certainly see why some people pegged him as an "Intel shill". He repeatedly asserts that Intel is the *only* brand to consider, even though the two products he refers to are practically the only ones to even have 'power-loss protection'. For example, the 335 doesn't have it and the X25-E didn't either.
The only brand to consider if looking for power-loss protection, as from his testing, they were the only brand to pass his tests.
He also condemns the Crucial M4, but it doesn't even have a 'super-capacitor'. There's a world of difference between writing firmware to minimize disruption problems and actually having the necessary hardware. That's why people were complaining that he should have tested the M500, which *does* claim to have power-loss protection. There's been no satisfactory answer to why he chose to test the obsolete model for this and other brands.
The requirements for the units under test were: Power-loss protection, and below a certain price point from his supplier. Maybe (and I can't confirm this), is that the M500 was out of the price bracket, and the only units in the required price bracket were older/obsolete units?
And then there's why didn't he test Samsung or SanDisk, the biggest OEM brands?
I agree on this... maybe it's related to above: How many of those units have power-loss protection that were within the pricing bracket and available through his supplier?
And then there's the nature of the test, which frankly would probably always fail with an OS like Windows or one of the more user-friendly Linux flavors.
Modern filesystems like NTFS, ext4, ZFS, JFS, XFS are all journal based filesystems, at most a sudden power loss should only result in some user data lost, but no filesystem corruption.
Power failure every 9 to 25 seconds - really? (Happy to be corrected on this, I wasted a couple hours of my life on this the other night and may well have missed something).
If you're trying to test how something handles a certain situation (which may have timing variables and race conditions) you test it as often as possible in the shortest time possible to get meaningful results. By cycling the power every 9-25 seconds, he was trying to determine how successful the power loss protection is... Yes, it's not going to happen in the real-world, but if his tests show that the unit may fail on a 1/900 chance due to sudden power loss (eg it failed on the 900th test), the 1/900 chance result is meaningful.
How many different ways would you like this statement to be shot down? You're a (former) IT infrastructure support guy - how many RAID controllers have battery backup?
Sadly, not enough...
If you pull the plug on an active MS Exchange server (substitute advanced product of your choice) without a UPS, what are your chances of losing the odd datum, or even having to spend hours trying to rebuild the sod?
Granted, while the filesystem may be OK, there will be some data loss in the files used by the application, which, yes will result in having to fix that application. (but, that's what backups are for and disaster recovery plans).
But the test wasn't for filesystem corruption, but for device failure... Losing 1-2 sectors of information isn't that bad, compared to losing the entire device... Scenario, I have a zpool/RAID of 20x 15K SAS HDDs, and I lose 1-2 sectors of information due to power loss, versus, I have a zpool of 10x SSDs, and I just lost half of them (as the FTTs on all of them corrupted)...
There are other, genuine research papers available (that don't promote a particular company) that canvas the issue. I certainly think it's a concern, but frankly it's well down my list of possible data loss worries.
And those other research papers have similar findings... (There is a lot of marketing bullshit being spewed by companies, and you need to test if they truly live up to their claims).
In the real-world, you're not likely to suffer a sudden power loss, due to varying number of factors (eg, battery on a laptop/tablet, UPS, battery-backed RAID controller, etc). Therefore, I agree, the loss of data due to this is very small compared to other causes of data loss. However, if you're planning to deploy SSDs, you need to weigh the risk of this sort of power loss happening vs using traditional HDDs where sudden power loss is almost certain to not kill the drive completely... (sure a few lost sectors, but not the whole drive).
PS. happy new year! Wishing everyone a safe and joyful 2014.
