18

We are writing a highly concurrent software in C++ for a few hosts, all equipped with a single ST9500620NS as the system drive and an Intel P3700 NVMe Gen3 PCIe SSD card for data. Trying to understand the system more for tuning our software, I dug around the system (two E5-2620 v2 @ 2.10GHz CPUs, 32GB RAM, running CentOS 7.0) and was surprised to spot the following:

[root@sc2u0n0 ~]# cat /sys/block/nvme0n1/queue/scheduler 
none

This contradicts to everything that I learned about selecting the correct Linux I/O scheduler, such as from the official doc on kernel.org.

I understand that NVMe is a new kid on the block, so for now I won't touch the existing scheduler setting. But I really feel odd about the "none" put in by the installer. If anyone who has some hints as to where I can find more info or share your findings, I would be grateful. I have spent many hours googling without finding anything concrete so far.

2 Answers 2

19

The answer given by Sanne in the comments is correct:

"The reason is that NVMe bypasses the scheduler. You're not using the "noop" implementation: you're not using a scheduler."

noop is not the same as none, noop still performs block merging (unless you disable it with nomerges)

If you use an nvme device, or if you enable "scsi_mod.use_blk_mq=Y" at compile time or boot time, then you bypass the traditional request queue and its associated schedulers.

Schedulers for blk-mq might be developed in the future.

1
14

"none" (aka "noop") is the correct scheduler to use for this device.

I/O schedulers are primarily useful for slower storage devices with limited queueing (e.g, single mechanical hard drives) — the purpose of an I/O scheduler is to reorder I/O requests to get more important ones serviced earlier. For a device with a very large internal queue, and very fast service (like a PCIe SSD!), an I/O scheduler won't do you any good; you're better off just submitting all requests to the device immediately.

6
  • 2
    logically, I got what you said. Perhaps I should have made myself more clear - I didn't see this option "none" anywhere. Do I have to dig into the kernel code to find it or is it documented anywhere?
    – user183394
    Dec 27, 2014 at 5:46
  • 1
    In fact, I got so curious that I downloaded the entire linux-3.18.1.tar.xz to my machine, untar the source zx-ed tar ball, and went into linux-3.18.1/block, did a grep -i none and reviewed the noop-iosched.c too. Nowhere I saw this option name none. Now I am even more mystified why the CentOS Anaconda installer used this seemingly undocumented name. Hey, Red Hat folks?
    – user183394
    Dec 27, 2014 at 6:35
  • My loop back devices show cat /sys/block/loop*/queue/scheduler as none. Are you sure your device is recognized, connected, formatted properly and/or mounted with some file system type(ext{3,4},btrfs). From this article Tuning i/o schedulers for ssds however, should show up all the standard schedulers and a selected one. At-least it should give you an option using a different scheduler for testing purposes ?
    – askb
    Dec 27, 2014 at 14:32
  • 1
    Interesting. Are you using a machine that runs Debian or a derivative such as Ubuntu? Of all RHEL nodes that I have access to, I don't see /sys/block/loop*. I do see such on a machine running Ubuntu 12.04LTS, which indeed, shows the none. Yes. All devices are under heavy use (we have been running our software using these NVMe devices for sometime). They show up in e.g. mount, df -h output too. At any rate, now I know none is likely "poorly documented" alias for noop, I will accept your answer. Thanks for sharing your experience and time!
    – user183394
    Dec 28, 2014 at 6:53
  • 13
    The reason is that NVMe bypasses the scheduler. You're not using the "noop" implementation: you're not using a scheduler.
    – Sanne
    Jun 13, 2015 at 11:35

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.