iostat -x -d 

can display many i/o statistic info. For util of iostat, the explanation is :

Percentage of CPU time during which I/O requests were issued to the device (band-width utilization for the device). Device saturation occurs when this value is close to 100%

I want to know how the util was computed?

I make an experiment, (see following code), start 40 thread to randomly read 40 files. I suppose the disk util should be very high, but I am wrong, the iostat is as follow, anyone can give why? THX

Device:         rrqm/s   wrqm/s   r/s   w/s   rsec/s   wsec/s avgrq-sz avgqu-sz   await  svctm  %util
sdb1              0.01     0.44  0.24  0.57     3.44     8.14    14.34     0.00    2.28   0.66   0.05


#include <iostream>
#include <fstream>
#include <pthread.h>

using namespace std;

void* work(void* a)
    int* id = (int*)a;
    string file = "sys.partition";
    char buf[100];
    sprintf(buf, "%d", *id);
    ifstream in(file.c_str());
    in.seekg(0, ios_base::end);
    size_t len = in.tellg();

    cout << "open file : " << file << " , " << len << endl;

        size_t pos = rand() % len;
        //cout << pos << endl;
        in.read(buf, 10);

int main(int argc, char** argv)
    static const int num = 40;
    pthread_t threads[num];
    for (int i = 0; i < num; i++)       {
        pthread_create(&threads[i], NULL, work, &i);
    for (int i = 0; i < num; i++)       {
        pthread_join(threads[i], NULL);
    return 0;
  • the format is totally changed, the overflow should improve editor. – Raymond Dec 16 '10 at 6:52
  • the overflow to the rescue! Improvement Done! – zengr Dec 16 '10 at 6:56
  • either look at the changes that @zengr has kindly made to your question or read the formatting help: stackoverflow.com/editing-help – Stephen C Dec 16 '10 at 7:02

%util is named busy in the source code of iostat: https://code.google.com/p/tester-higkoo/source/browse/trunk/Tools/iostat/iostat.c#380

Busy is counted as percent ratio of Ticks to deltams, limited to 100%

busy = 100.0 * blkio.ticks / deltams; /* percentage! */
if (busy > 100.0) busy = 100.0;

DeltaMS is sum of system load for the period of time (user time + system time + idle time + iowait)/ ncpu.

double deltams = 1000.0 *
        ((new_cpu.user + new_cpu.system +
          new_cpu.idle + new_cpu.iowait) -
         (old_cpu.user + old_cpu.system +
          old_cpu.idle + old_cpu.iowait)) / ncpu / HZ;

Ticks - is the Time of requests in queue for the period

blkio.ticks = new_blkio[p].ticks
                - old_blkio[p].ticks;

In more current version of sysstat the code is bit different: http://sources.debian.net/src/sysstat/10.2.0-1/iostat.c#L959

/*       rrq/s wrq/s   r/s   w/s  rsec  wsec  rqsz  qusz await r_await w_await svctm %util */
printf(" %8.2f %8.2f %7.2f %7.2f %8.2f %8.2f %8.2f %8.2f %7.2f %7.2f %7.2f %6.2f %6.2f\n",
        * Again: Ticks in milliseconds.
        * In the case of a device group (option -g), shi->used is the number of
        * devices in the group. Else shi->used equals 1.
       shi->used ? xds.util / 10.0 / (double) shi->used
                 : xds.util / 10.0);    /* shi->used should never be null here */

xds is filled in the compute_ext_disk_stats(&sdc, &sdp, itv, &xds); http://sources.debian.net/src/sysstat/10.2.0-1/common.c?hl=679#L679

 * Macros used to display statistics values.
 * HZ is 1024 on IA64 and % should be normalized to 100.
#define S_VALUE(m,n,p)  (((double) ((n) - (m))) / (p) * HZ)

xds->util  = S_VALUE(sdp->tot_ticks, sdc->tot_ticks, itv);

And there is the filling of tot_ticks from iostat.c

  * @ioi        Current sample statistics.
  * @ioj        Previous sample statistics.
  * @itv        Interval of time.

sdc.tot_ticks = ioi->tot_ticks;
sdp.tot_ticks = ioj->tot_ticks;

tot_ticks are read from "sysfs stat for current block device or partition" in read_sysfs_file_stat (iostat.c:487), and ioi and ioj are current and previous stat.

  • Thank you very much, but I don't know how to accept your answer? – Raymond Dec 31 '10 at 8:21
  • @Raymond, did you get, what does "Time of requests in queue" mean? I can't understand this parameter fully, but i think it is something like mean time between issuing and fulfilling of disk requests – osgx Dec 31 '10 at 18:51
  • But ... what's the answer to the OP question I suppose the disk util should be very high, but I am wrong, the iostat is low, anyone can explain why? – max Jun 30 '17 at 17:40
  • This is called caching: OS cached file data read from disk in the page cache: en.wikipedia.org/wiki/Page_cache - real disk utilization reported by iostat was low, lower than 1%, so the author's test was incorrect, it did not measure any disk latency/speed, only how OS manages to service random requests from memory. – osgx Jun 30 '17 at 18:26

iostat -x (I used an old version of the source code to write this up before realizing it) displays information from /proc/diskstats (documented here) and /proc/stat (for CPU times; see man proc(5)) (and a few others, but that's not important for understanding).

You can see the relevant snippets of code in osgx's answer, but I couldn't make sense of them in isolation, so here's an extended explanation:

  • %util = blkio.ticks / deltams * 100%
  • deltams is the time elapsed since last snapshot in ms. It uses CPU stats from /proc/stat presumably because it gives better results than to rely on system time, but I don't know for sure. (Side note: for some reason the times are divided by HZ, while the documentation states it's in USER_HZ, I don't understand that.)
  • blkio.ticks is "# of milliseconds spent doing I/Os", from /proc/diskstats docs:

    Field  9 -- # of I/Os currently in progress
      The only field that should go to zero. Incremented as requests are
      given to appropriate struct request_queue and decremented as they finish.
    Field 10 -- # of milliseconds spent doing I/Os
      This field increases so long as field 9 is nonzero.

    i.e. my understanding is that ticks is the number of ticks when any I/O request (for this device) was in progress multiplied by the duration between ticks.

So %util = 100% means that each time the kernel looked (I guess it's 1000 times per second on modern kernels, see "HZ"), an I/O request was in progress.

Here's an excerpt from another post on iostat:

[%util is] how much time did the storage device have outstanding work (was busy).

In proper RAID environments it is more like “how much time did at least one disk in RAID array have something to do”. I’m deliberately excluding any kind of cache here – if request can be served from cache, the chance is quite negligible it will show up in %util, unlike in other values.

What this also means – the RAID subsystem can be loaded from 6.25% (one disk doing the work) to 100% (all of them busy). Thats quite a lot of insight in single value of ’100%’, isn’t it?

  • 1
    If the average queue size (avgqu-sz) is seen to be more than 1 on all the iostat samples (lets say 1 sec samples over 100 seconds), does that mean utilization will be 100% for those 100 seconds? Because having a big queue size means that device had sufficient I/Os to process. – K.K Dec 10 '14 at 10:38
  • I don't think that's right, if you're considering 1-second averages - people claim that await = avgqu-sz * svctm / (%util/100). On the other hand if the queue is always non-empty (and not simply averages 1/second), I'd expect %util to be 100. – Nickolay Nov 25 '19 at 14:12

As per the man page, the first line of results from iostat is an average from the moment the system was booted.

From my tests, this seems to apply also to the only line, if called e.g. as

iostat -x.


iostat -dmx 1 5

It will give you five lines with one second difference between lines. Discard the first, look at the others, perhaps like that the output will make more sense.


%util means how much time spent writing/reading per unit of time, you can compute it from the mean service time:

svctm  * (  r/s + w/s )  /1000 
= 0.66 *(0.24 + 0.57) /1000
= 0.0005346 

hence 0.05%

I haven't read your code, but obviously at less than 1 read or write per second it isn't loading the disks that much!

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