On Friday 01 January 2010 23:47:12 Poul-Henning Kamp wrote: > In message <201001012153.44349.pieter_at_degoeje.nl>, Pieter de Goeje writes: > >That yielded some pretty spectacular results. [...] > > > >Performance for restore was abysmal in the unaligned case, easily being 10 > >times slower than aligned restore. Newfs was about 5 times as slow. > > That is what I expected, only I didn't expect a factor 14 in performance. I'm trying to think of reasons why it performs so poorly, because even in the "write covers two sectors partially" case a read-modify-write cycle shouldn't mess performance up so badly, considering the drive's huge 64MB cache. Maybe the firmware is just not that smart. > > I'm not surprised that newfs and restore take the biggest hits in that > test, those are the hard ones, seen from the disk drive, all the read > only work can be cached and "covered up" that way. > > Ideally, newfs/UFS should do a quick test to look for any obvious > boundaries, and DTRT, a nice little task for somebody :-) A search for the offset for which newfs (or a simpler test) runs fastest? Interesting idea :-) Technically, the drive's at fault here because it should've reported 4K sectors. Perhaps there should be some kind of quirks table :-S for disk drives and/or a sectorsize override knob. Or maybe simply selecting a large enough power-of-two boundary suffices. That could also be done by gpart instead of (or in addition to) newfs. > > Poul-Henning > > PS: The reason I asked for 3 iterations, was so we could calculate > a standard deviation (See: ministat(8)) in order to have a statistical > sound conclusion. With a factor 14 in time difference, I will for > once conceede it unnecessary :-) Noted :-) - PieterReceived on Fri Jan 01 2010 - 23:01:29 UTC
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