> Il giorno 06 ott 2018, alle ore 05:12, Bart Van Assche <bvanassche@xxxxxxx> ha scritto: > > On 10/5/18 2:16 AM, Jan Kara wrote: >> On Thu 04-10-18 15:42:52, Bart Van Assche wrote: >>> What I think is missing is measurement results for BFQ on a system with >>> multiple CPU sockets and against a fast storage medium. Eliminating >>> the host lock from the SCSI core yielded a significant performance >>> improvement for such storage devices. Since the BFQ scheduler locks and >>> unlocks bfqd->lock for every dispatch operation it is very likely that BFQ >>> will slow down I/O for fast storage devices, even if their driver only >>> creates a single hardware queue. >> Well, I'm not sure why that is missing. I don't think anyone proposed to >> default to BFQ for such setup? Neither was anyone claiming that BFQ is >> better in such situation... The proposal has been: Default to BFQ for slow >> storage, leave it to deadline-mq otherwise. > > Hi Jan, > > How do you define slow storage? The proposal at the start of this thread was to make BFQ the default for all block devices that create a single hardware queue. That includes all SATA storage since scsi-mq only creates a single hardware queue when using the SATA protocol. The proposal to make BFQ the default for systems with a single hard disk probably makes sense but I am not sure that making BFQ the default for systems equipped with one or more (SATA) SSDs is also a good idea. Especially for multi-socket systems since BFQ reintroduces a queue-wide lock. No, BFQ has no queue-wide lock. The very first change made to BFQ for porting it to blk-mq was to remove the queue lock. Guided by Jens, I replaced that lock with the exact, same scheduler lock used in mq-deadline. Thanks, Paolo > As you know no queue-wide locking happens during I/O in the scsi-mq core nor in the blk-mq core. > > Bart. ______________________________________________________ Linux MTD discussion mailing list http://lists.infradead.org/mailman/listinfo/linux-mtd/