Has anyone considered triple-parity raid6 ? As far as I can see, it
should not be significantly harder than normal raid6 - either to
implement, or for the processor at run-time. Once you have the GF(2â)
field arithmetic in place for raid6, it's just a matter of making
another parity block in the same way but using a different generator:
P = D_0 + D_1 + D_2 + .. + D_(n.1)
Q = D_0 + g.D_1 + gÂ.D_2 + .. + g^(n-1).D_(n.1)
R = D_0 + h.D_1 + hÂ.D_2 + .. + h^(n-1).D_(n.1)
The raid6 implementation in mdraid uses g = 0x02 to generate the second
parity (based on "The mathematics of RAID-6" - I haven't checked the
source code). You can make a third parity using h = 0x04 and then get a
redundancy of 3 disks. (Note - I haven't yet confirmed that this is
valid for more than 100 data disks - I need to make my checker program
more efficient first.)
Rebuilding a disk, or running in degraded mode, is just an obvious
extension to the current raid6 algorithms. If you are missing three
data blocks, the maths looks hard to start with - but if you express the
equations as a set of linear equations and use standard matrix inversion
techniques, it should not be hard to implement. You only need to do
this inversion once when you find that one or more disks have failed -
then you pre-compute the multiplication tables in the same way as is
done for raid6 today.
In normal use, calculating the R parity is no more demanding than
calculating the Q parity. And most rebuilds or degraded situations will
only involve a single disk, and the data can thus be re-constructed
using the P parity just like raid5 or two-parity raid6.
I'm sure there are situations where triple-parity raid6 would be
appealing - it has already been implemented in ZFS, and it is only a
matter of time before two-parity raid6 has a real probability of hitting
an unrecoverable read error during a rebuild.
And of course, there is no particular reason to stop at three parity
blocks - the maths can easily be generalised. 1, 2, 4 and 8 can be used
as generators for quad-parity (checked up to 60 disks), and adding 16
gives you quintuple parity (checked up to 30 disks) - but that's maybe
getting a bit paranoid.
ref.:
<http://kernel.org/pub/linux/kernel/people/hpa/raid6.pdf>
<http://blogs.oracle.com/ahl/entry/acm_triple_parity_raid>
<http://queue.acm.org/detail.cfm?id=1670144>
<http://blogs.oracle.com/ahl/entry/triple_parity_raid_z>
mvh.,
David
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