Unfortunately they really don’t work as well as you’d like in a server
They come with a 5 second head spin down setting that causes them to park their heads if they have been left idle for more than 5 seconds. As it takes a second or two to spin back up this can result in a very laggy experience during interactive sessions.
They do not have NCQ or any form of command queing/optimisation. This means that (on FreeBSD at least) you are stuck in the LOOK elevator. In particular this was noticed when doing sequential read & write (think dump|restore tar|untar etc) and interactive tasks simultaneously
While the other 512-byte sector HDDs were reading/writing at 30MB/s sustained, this EARS model did not exceeded the 1MB/s barrier.
I know for sure that this is related to the 512-byte sector firmware emulation, because the disk works perfectly well if I partition it in a 4k-sector alignment.
The thing is that even in that way, using it in a ZFS RAIDZ configuration the performance is very poor because RAIDZ uses a dynamic stripe size.
The bottom line here is that folks like me, that use different versions of Unix, need the firmware to present the disk as a 4K-sector disk to unleash the full potential of the technology. The OS is already prepared to support that sector size, no need for emulation here.
Some preliminary testing that I have done…the WD20EARS (2TB advanced format drives) actually presents emulated 512byte sectors to the host o/s.
The drive documentation indicates that jumpers 7-8 should be enabled if the o/s does not support advanced format drives – the drive still present 512 bytes sectors.
I have attempted to raise a support ticket querying this, and how one can disable 512byte sector emulation in the drive (perhaps through a firmware upgrade) but I have not received any response to date.
Hopefully is enough people raise support tickets, WD may release firmware that allows the drive to natively present 4k blocks. Other doco indicates several other jumper combinations – all do not seem to make the drive present 4k byte blocks.
Perhaps someone internal to sun that has a relationship with WD may be able to shed some light on this? It would be fantastic to find out that I was just doing something wrong -> then I can get the drives to be seen on 32bit systems (ie – our embedded kit for osol, velitium)
Tested using b133 (64bit intel).
Try to avoid the green drives in ZFS for now. Remember to do your research before you buy a bunch of disks. I was caught off guard by this small change (works fine in win7 etc) which kills performance in ZFS. Ouch.