Alan Cox wrote:
First generation of 1K sector drives will continue to use the same
512-byte ATA sector size you are familiar with. A single 512-byte write
will cause the drive to perform a read-modify-write cycle. This
configuration is physical 1K sector, logical 512b sector.
The problem case is "read-modify-screwup"
At that point we've trashed the block we were writing (a well studied
recovery case), and we've blasted some previously sane, totally
unrelated sector of data out of existance. Thats why we need to know
ideally if they are doing the write to a different physical block when
they do this, so that we don't lose the old data. My guess is they won't
as it'll be hard.
Strict ATA command set answer: you will have no idea what goes on under
the hood. The current 512-b interface stays /exactly/ the same, save
for a word or two in IDENTIFY DEVICE telling you the "secret" physical
sector size. If all your I/Os are aligned properly, then you need not
worry about RMW cycles, as they will not occur.
Intuition answer: they will use their firmware-internal standard code
for scheduling reads and writes, and will only reallocate sectors as
needed by media failure or similar events.
The "M" part of the modify cycle happens in disk ram. So from the
disk's point of view, a single 512-b write would require reading a
single 1K hard sector, updating the contents in cache RAM, and then
writing a single 1K hard sector. The reading of the unknown half of the
sector can be scheduled well in advance, usually, since writeback
caching gives the drive plenty of time (relatively speaking) to optimize
things.
Overall, it definitely adds a few more points of failure, but we can't
do much at all about those points of failure.
In my own experiments on my own Fedora workstation, ~66% of IOs in Linux
start on an odd sector, and ~33% started on even-numbered sectors. For
a 1K-sector drive with 'odd' alignment, the configuration Microsoft will
likely want, that means the majority of disk transactions will avoid a
RMW cycle, but a still-numerous minority will not. I did not test
transfer length, to see how many transfers /ended/ on an odd sector,
thus determining how many RMW cycles the tail of an average I/O requires.
A future configuration will change the logical ATA interface away from
512-byte sectors to 1K or 4K. Here, it is impossible to read a quantity
smaller than 1K or 4K, whatever the sector size is.
That one I'm not worried about - other than "guess how Redmond decide to
make partition tables work" that one is mostly easy (be fun to see how
many controllers simply can't cope with the command formats)
Indeed...
Jeff
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