I have a few more cycles this week to dedicate to the problem of making OSDs do more than maybe 5 simultaneous operations (as measured by the iostat effective queue depth of the drive). However, I'm starting to think that the problem isn't with the number of threads that have work to do... the problem may just be that the OSD & PG code has enough thread locking happening that there is no possible way to have more than a few things happening on a single OSD (or perhaps a single placement group). Has anyone thought about the problem from this angle? This would help explain why multiple-OSDs-per-SSD is so effective (even though the thought of doing this in production is utterly terrifying). For my next set of tests, I'll try some multi-pool testing and see if isolating the placement groups helps with the thread limitations I'm seeing. Last time, I was testing multiple RBDs in the same pool. Thanks, Mark On Sat, May 11, 2019 at 5:50 AM Maged Mokhtar <mmokhtar@xxxxxxxxxxx> wrote: > > > On 10/05/2019 19:54, Mark Lehrer wrote: > > I'm setting up a new Ceph cluster with fast SSD drives, and there is > > one problem I want to make sure to address straight away: > > comically-low OSD queue depths. > > > > On the past several clusters I built, there was one major performance > > problem that I never had time to really solve, which is this: > > regardless of how much work the RBDs were being asked to do, the OSD > > effective queue depth (as measured by iostat's "avgrq-sz" column) > > never went above 3... even if I had multiple RBDs with queue depths in > > the thousands. > > > > This made sense back in the old days of spinning drives. However, for > > example with these particular drives and a 4K or 16K block size you > > don't see maximum read performance until the queue depth gets to 50+. > > At a queue depth of 4 the bandwidth is less than 20% what it is at > > 256. The bottom line here is that Ceph performance is simply > > embarrassing whenever the OSD effective queue depth is in single > > digits. > > > > On my last cluster, I spent a week or two researching and trying OSD > > config parameters trying to increase the queue depth. So far, the > > only effective method I have seen to increase the effective OSD queue > > depth is a gross hack - using multiple partitions per SSD to create > > multiple OSDs. > > > > My questions: > > > > 1) Is there anyone on this list who has solved this problem already? > > On the performance articles I have seen, the authors don't show iostat > > results (or any OSD effective queue depth numbers) so I can't really > > tell. > > > > 2) If there isn't a good response to #1, is anyone else out there able > > to do some experimentation to help figure this out? All you would > > need to do to get started is collect the output of this command while > > a high-QD rbd test is happening: "iostat -mtxy 1" -- you should > > collect it on all of the OSD servers as well as the client (you will > > want to attach an RBD and talk to it via /dev/rbd0 otherwise iostat > > probably won't see it). > > > > 3) If there is any technical reason why this is impossible, please let > > me know before I get to far down this road... but because the multiple > > partitions trick works so well I expect it must be possible somehow. > > > > Thanks, > > Mark > > _______________________________________________ > > ceph-users mailing list > > ceph-users@xxxxxxxxxxxxxx > > http://lists.ceph.com/listinfo.cgi/ceph-users-ceph.com > > i assume you mean avgqu-sz (queue size) rather than avgrq-sz (request > size). if so, what avgrq-sz do you get ? what kernel and io scheduler > being used ? > > It is not uncommon if the system is not well tuned for your workload, > you may have a bottleneck in cpu running near 100% and your disks would > be single digit % busy, the faster your disks are and the more disks you > have, the less they will be busy if there is some cpu or network > bottleneck. If so the queue depth on them will be very low. > > It is also possible the cluster has good performance but the bottleneck > is from the client(s) doing the test and is/are not fast enough to fully > stress your cluster, hence your disks. > > To know more, we need more numbers: > -How many SSDs/OSDs do you have, what is their raw device random 4k > write sync iops ? > -How many hosts and cpu cores do you have ? > -How many nics and their speed ? > -What total iops do you get ? What params did you use for the 4k test ? > is it random or sequential ? > -Do you use enough threads/queue depth to stress all your OSDs in > parallel ? > -Run atop during the test, what cpu and disk % busy do you see on all > hosts including clients ? > -How many clients do you use ? For a fast cluster you may need many > clients to stress it, keep increasing clients until your numbers saturate. > > /Maged _______________________________________________ ceph-users mailing list ceph-users@xxxxxxxxxxxxxx http://lists.ceph.com/listinfo.cgi/ceph-users-ceph.com