fio.1 - fp2-dev/platform/external/fio - Gitiles

 .TH fio 1 "September 2007" "User Manual"
 .SH NAME
 fio \- flexible I/O tester
 .SH SYNOPSIS
 .B fio
 [\fIoptions\fR] [\fIjobfile\fR]...
 .SH DESCRIPTION
 .B fio
 is a tool that will spawn a number of threads or processes doing a
 particular type of I/O action as specified by the user.
 The typical use of fio is to write a job file matching the I/O load
 one wants to simulate.
 .SH OPTIONS
 .TP
 .BI \-\-output \fR=\fPfilename
 Write output to \fIfilename\fR.
 .TP
 .BI \-\-timeout \fR=\fPtimeout
 Limit run time to \fItimeout\fR seconds.
 .TP
 .B \-\-latency\-log
 Generate per-job latency logs.
 .TP
 .B \-\-bandwidth\-log
 Generate per-job bandwidth logs.
 .TP
 .B \-\-minimal
 Print statistics in a terse, semicolon-delimited format.
 .TP
 .BI \-\-showcmd \fR=\fPjobfile
 Convert \fIjobfile\fR to a set of command-line options.
 .TP
 .B \-\-readonly
 Enable read-only safety checks.
 .TP
 .BI \-\-eta \fR=\fPwhen
 Specifies when real-time ETA estimate should be printed.  \fIwhen\fR may
 be one of `always', `never' or `auto'.
 .TP
 .BI \-\-section \fR=\fPsec
 Only run section \fIsec\fR from job file.
 .TP
 .BI \-\-cmdhelp \fR=\fPcommand
 Print help information for \fIcommand\fR.  May be `all' for all commands.
 .TP
 .BI \-\-debug \fR=\fPtype
 Enable verbose tracing of various fio actions. May be `all' for all types
 or individual types seperated by a comma (eg --debug=io,file). `help' will
 list all available tracing options.
 .TP
 .B \-\-help
 Display usage information and exit.
 .TP
 .B \-\-version
 Display version information and exit.
 .SH "JOB FILE FORMAT"
 Job files are in `ini' format. They consist of one or more
 job definitions, which begin with a job name in square brackets and
 extend to the next job name.  The job name can be any ASCII string
 except `global', which has a special meaning.  Following the job name is
 a sequence of zero or more parameters, one per line, that define the
 behavior of the job.  Any line starting with a `;' or `#' character is
 considered a comment and ignored.
 .P
 If \fIjobfile\fR is specified as `-', the job file will be read from
 standard input.
 .SS "Global Section"
 The global section contains default parameters for jobs specified in the
 job file.  A job is only affected by global sections residing above it,
 and there may be any number of global sections.  Specific job definitions
 may override any parameter set in global sections.
 .SH "JOB PARAMETERS"
 .SS Types
 Some parameters may take arguments of a specific type.  The types used are:
 .TP
 .I str
 String: a sequence of alphanumeric characters.
 .TP
 .I int
 Integer: a whole number, possibly negative.  If prefixed with `0x', the value
 is assumed to be base 16 (hexadecimal).
 .TP
 .I siint
 SI integer: a whole number, possibly containing a suffix denoting the base unit
 of the value.  Accepted suffixes are `k', 'M' and 'G', denoting kilo (1024),
 mega (1024*1024) and giga (1024*1024*1024) respectively.
 .TP
 .I bool
 Boolean: a true or false value. `0' denotes false, `1' denotes true.
 .TP
 .I irange
 Integer range: a range of integers specified in the format
 \fIlower\fR:\fIupper\fR or \fIlower\fR\-\fIupper\fR. \fIlower\fR and
 \fIupper\fR may contain a suffix as described above.  If an option allows two
 sets of ranges, they are separated with a `,' or `/' character. For example:
 `8\-8k/8M\-4G'.
 .SS "Parameter List"
 .TP
 .BI name \fR=\fPstr
 May be used to override the job name.  On the command line, this parameter
 has the special purpose of signalling the start of a new job.
 .TP
 .BI description \fR=\fPstr
 Human-readable description of the job. It is printed when the job is run, but
 otherwise has no special purpose.
 .TP
 .BI directory \fR=\fPstr
 Prefix filenames with this directory.  Used to place files in a location other
 than `./'.
 .TP
 .BI filename \fR=\fPstr
 .B fio
 normally makes up a file name based on the job name, thread number, and file
 number. If you want to share files between threads in a job or several jobs,
 specify a \fIfilename\fR for each of them to override the default. If the I/O
 engine used is `net', \fIfilename\fR is the host and port to connect to in the
 format \fIhost\fR/\fIport\fR. If the I/O engine is file-based, you can specify
 a number of files by separating the names with a `:' character. `\-' is a
 reserved name, meaning stdin or stdout, depending on the read/write direction
 set.
 .TP
 .BI opendir \fR=\fPstr
 Recursively open any files below directory \fIstr\fR.
 .TP
 .BI readwrite \fR=\fPstr "\fR,\fP rw" \fR=\fPstr
 Type of I/O pattern.  Accepted values are:
 .RS
 .RS
 .TP
 .B read
 Sequential reads.
 .TP
 .B write
 Sequential writes.
 .TP
 .B randread
 Random reads.
 .TP
 .B randwrite
 Random writes.
 .TP
 .B rw
 Mixed sequential reads and writes.
 .TP
 .B randrw
 Mixed random reads and writes.
 .RE
 .P
 For mixed I/O, the default split is 50/50.  For random I/O, the number of I/Os
 to perform before getting a new offset can be specified by appending
 `:\fIint\fR' to the pattern type.  The default is 1.
 .RE
 .TP
 .BI randrepeat \fR=\fPbool
 Seed the random number generator in a predictable way so results are repeatable
 across runs.  Default: true.
 .TP
 .BI fadvise_hint \fR=\fPbool
 Disable use of \fIposix_fadvise\fR\|(2) to advise the kernel what I/O patterns
 are likely to be issued. Default: true.
 .TP
 .BI size \fR=\fPsiint
 Total size of I/O for this job.  \fBfio\fR will run until this many bytes have
 been transfered, unless limited by other options (\fBruntime\fR, for instance).
 Unless \fBnr_files\fR and \fBfilesize\fR options are given, this amount will be
 divided between the available files for the job.
 .TP
 .BI filesize \fR=\fPirange
 Individual file sizes. May be a range, in which case \fBfio\fR will select sizes
 for files at random within the given range, limited to \fBsize\fR in total (if
 that is given). If \fBfilesize\fR is not specified, each created file is the
 same size.
 .TP
 .BI blocksize \fR=\fPsiint[,siint] "\fR,\fB bs" \fR=\fPsiint[,siint]
 Block size for I/O units.  Default: 4k.  Values for reads and writes can be
 specified seperately in the format \fIread\fR,\fIwrite\fR, either of
 which may be empty to leave that value at its default.
 .TP
 .BI blocksize_range \fR=\fPirange[,irange] "\fR,\fB bsrange" \fR=\fPirange[,irange]
 Specify a range of I/O block sizes.  The issued I/O unit will always be a
 multiple of the minimum size, unless \fBblocksize_unaligned\fR is set.  Applies
 to both reads and writes if only one range is given, but can be specified
 seperately with a comma seperating the values. Example: bsrange=1k-4k,2k-8k.
 Also (see \fBblocksize\fR).
 .TP
 .BI bssplit \fR=\fPstr
 This option allows even finer grained control of the block sizes issued,
 not just even splits between them. With this option, you can weight various
 block sizes for exact control of the issued IO for a job that has mixed
 block sizes. The format of the option is bssplit=blocksize/percentage,
 optionally adding as many definitions as needed seperated by a colon.
 Example: bssplit=4k/10:64k/50:32k/40 would issue 50% 64k blocks, 10% 4k
 blocks and 40% 32k blocks.
 .TP
 .B blocksize_unaligned\fR,\fP bs_unaligned
 If set, any size in \fBblocksize_range\fR may be used.  This typically won't
 work with direct I/O, as that normally requires sector alignment.
 .TP
 .B zero_buffers
 Initialise buffers with all zeros. Default: fill buffers with random data.
 .TP
 .BI nrfiles \fR=\fPint
 Number of files to use for this job.  Default: 1.
 .TP
 .BI openfiles \fR=\fPint
 Number of files to keep open at the same time.  Default: \fBnrfiles\fR.
 .TP
 .BI file_service_type \fR=\fPstr
 Defines how files to service are selected.  The following types are defined:
 .RS
 .RS
 .TP
 .B random
 Choose a file at random
 .TP
 .B roundrobin
 Round robin over open files (default).
 .RE
 .P
 The number of I/Os to issue before switching a new file can be specified by
 appending `:\fIint\fR' to the service type.
 .RE
 .TP
 .BI ioengine \fR=\fPstr
 Defines how the job issues I/O.  The following types are defined:
 .RS
 .RS
 .TP
 .B sync
 Basic \fIread\fR\|(2) or \fIwrite\fR\|(2) I/O.  \fIfseek\fR\|(2) is used to
 position the I/O location.
 .TP
 .B psync
 Basic \fIpread\fR\|(2) or \fIpwrite\fR\|(2) I/O.
 .TP
 .B vsync
 Basic \fIreadv\fR\|(2) or \fIwritev\fR\|(2) I/O. Will emulate queuing by
 coalescing adjacents IOs into a single submission.
 .TP
 .B libaio
 Linux native asynchronous I/O.
 .TP
 .B posixaio
 glibc POSIX asynchronous I/O using \fIaio_read\fR\|(3) and \fIaio_write\fR\|(3).
 .TP
 .B mmap
 File is memory mapped with \fImmap\fR\|(2) and data copied using
 \fImemcpy\fR\|(3).
 .TP
 .B splice
 \fIsplice\fR\|(2) is used to transfer the data and \fIvmsplice\fR\|(2) to
 transfer data from user-space to the kernel.
 .TP
 .B syslet-rw
 Use the syslet system calls to make regular read/write asynchronous.
 .TP
 .B sg
 SCSI generic sg v3 I/O. May be either synchronous using the SG_IO ioctl, or if
 the target is an sg character device, we use \fIread\fR\|(2) and
 \fIwrite\fR\|(2) for asynchronous I/O.
 .TP
 .B null
 Doesn't transfer any data, just pretends to.  Mainly used to exercise \fBfio\fR
 itself and for debugging and testing purposes.
 .TP
 .B net
 Transfer over the network.  \fBfilename\fR must be set appropriately to
 `\fIhost\fR/\fIport\fR' regardless of data direction.  If receiving, only the
 \fIport\fR argument is used.
 .TP
 .B netsplice
 Like \fBnet\fR, but uses \fIsplice\fR\|(2) and \fIvmsplice\fR\|(2) to map data
 and send/receive.
 .TP
 .B cpuio
 Doesn't transfer any data, but burns CPU cycles according to \fBcpuload\fR and
 \fBcpucycles\fR parameters.
 .TP
 .B guasi
 The GUASI I/O engine is the Generic Userspace Asynchronous Syscall Interface
 approach to asycnronous I/O.
 .br
 See <http://www.xmailserver.org/guasi\-lib.html>.
 .TP
 .B external
 Loads an external I/O engine object file.  Append the engine filename as
 `:\fIenginepath\fR'.
 .RE
 .RE
 .TP
 .BI iodepth \fR=\fPint
 Number of I/O units to keep in flight against the file.  Default: 1.
 .TP
 .BI iodepth_batch \fR=\fPint
 Number of I/Os to submit at once.  Default: \fBiodepth\fR.
 .TP
 .BI iodepth_low \fR=\fPint
 Low watermark indicating when to start filling the queue again.  Default:
 \fBiodepth\fR.
 .TP
 .BI direct \fR=\fPbool
 If true, use non-buffered I/O (usually O_DIRECT).  Default: false.
 .TP
 .BI buffered \fR=\fPbool
 If true, use buffered I/O.  This is the opposite of the \fBdirect\fR parameter.
 Default: true.
 .TP
 .BI offset \fR=\fPsiint
 Offset in the file to start I/O. Data before the offset will not be touched.
 .TP
 .BI fsync \fR=\fPint
 How many I/Os to perform before issuing an \fBfsync\fR\|(2) of dirty data.  If
 0, don't sync.  Default: 0.
 .TP
 .BI overwrite \fR=\fPbool
 If writing, setup the file first and do overwrites.  Default: false.
 .TP
 .BI end_fsync \fR=\fPbool
 Sync file contents when job exits.  Default: false.
 .TP
 .BI fsync_on_close \fR=\fPbool
 If true, sync file contents on close.  This differs from \fBend_fsync\fR in that
 it will happen on every close, not just at the end of the job.  Default: false.
 .TP
 .BI rwmixcycle \fR=\fPint
 How many milliseconds before switching between reads and writes for a mixed
 workload. Default: 500ms.
 .TP
 .BI rwmixread \fR=\fPint
 Percentage of a mixed workload that should be reads. Default: 50.
 .TP
 .BI rwmixwrite \fR=\fPint
 Percentage of a mixed workload that should be writes.  If \fBrwmixread\fR and
 \fBwrmixwrite\fR are given and do not sum to 100%, the latter of the two
 overrides the first.  Default: 50.
 .TP
 .B norandommap
 Normally \fBfio\fR will cover every block of the file when doing random I/O. If
 this parameter is given, a new offset will be chosen without looking at past
 I/O history.  This parameter is mutually exclusive with \fBverify\fR.
 .TP
 .BI nice \fR=\fPint
 Run job with given nice value.  See \fInice\fR\|(2).
 .TP
 .BI prio \fR=\fPint
 Set I/O priority value of this job between 0 (highest) and 7 (lowest).  See
 \fIionice\fR\|(1).
 .TP
 .BI prioclass \fR=\fPint
 Set I/O priority class.  See \fIionice\fR\|(1).
 .TP
 .BI thinktime \fR=\fPint
 Stall job for given number of microseconds between issuing I/Os.
 .TP
 .BI thinktime_spin \fR=\fPint
 Pretend to spend CPU time for given number of microseconds, sleeping the rest
 of the time specified by \fBthinktime\fR.  Only valid if \fBthinktime\fR is set.
 .TP
 .BI thinktime_blocks \fR=\fPint
 Number of blocks to issue before waiting \fBthinktime\fR microseconds.
 Default: 1.
 .TP
 .BI rate \fR=\fPint
 Cap bandwidth used by this job to this number of KiB/s.
 .TP
 .BI ratemin \fR=\fPint
 Tell \fBfio\fR to do whatever it can to maintain at least the given bandwidth.
 Failing to meet this requirement will cause the job to exit.
 .TP
 .BI rate_iops \fR=\fPint
 Cap the bandwidth to this number of IOPS.  If \fBblocksize\fR is a range, the
 smallest block size is used as the metric.
 .TP
 .BI rate_iops_min \fR=\fPint
 If this rate of I/O is not met, the job will exit.
 .TP
 .BI ratecycle \fR=\fPint
 Average bandwidth for \fBrate\fR and \fBratemin\fR over this number of
 milliseconds.  Default: 1000ms.
 .TP
 .BI cpumask \fR=\fPint
 Set CPU affinity for this job. \fIint\fR is a bitmask of allowed CPUs the job
 may run on.  See \fBsched_setaffinity\fR\|(2).
 .TP
 .BI cpus_allowed \fR=\fPstr
 Same as \fBcpumask\fR, but allows a comma-delimited list of CPU numbers.
 .TP
 .BI startdelay \fR=\fPint
 Delay start of job for the specified number of seconds.
 .TP
 .BI runtime \fR=\fPint
 Terminate processing after the specified number of seconds.
 .TP
 .B time_based
 If given, run for the specified \fBruntime\fR duration even if the files are
 completely read or written. The same workload will be repeated as many times
 as \fBruntime\fR allows.
 .TP
 .BI invalidate \fR=\fPbool
 Invalidate buffer-cache for the file prior to starting I/O.  Default: true.
 .TP
 .BI sync \fR=\fPbool
 Use synchronous I/O for buffered writes.  For the majority of I/O engines,
 this means using O_SYNC.  Default: false.
 .TP
 .BI iomem \fR=\fPstr "\fR,\fP mem" \fR=\fPstr
 Allocation method for I/O unit buffer.  Allowed values are:
 .RS
 .RS
 .TP
 .B malloc
 Allocate memory with \fImalloc\fR\|(3).
 .TP
 .B shm
 Use shared memory buffers allocated through \fIshmget\fR\|(2).
 .TP
 .B shmhuge
 Same as \fBshm\fR, but use huge pages as backing.
 .TP
 .B mmap
 Use \fImmap\fR\|(2) for allocation.  Uses anonymous memory unless a filename
 is given after the option in the format `:\fIfile\fR'.
 .TP
 .B mmaphuge
 Same as \fBmmap\fR, but use huge files as backing.
 .RE
 .P
 The amount of memory allocated is the maximum allowed \fBblocksize\fR for the
 job multiplied by \fBiodepth\fR.  For \fBshmhuge\fR or \fBmmaphuge\fR to work,
 the system must have free huge pages allocated.  \fBmmaphuge\fR also needs to
 have hugetlbfs mounted, and \fIfile\fR must point there.
 .RE
 .TP
 .BI hugepage\-size \fR=\fPsiint
 Defines the size of a huge page.  Must be at least equal to the system setting.
 Should be a multiple of 1MiB. Default: 4MiB.
 .TP
 .B exitall
 Terminate all jobs when one finishes.  Default: wait for each job to finish.
 .TP
 .BI bwavgtime \fR=\fPint
 Average bandwidth calculations over the given time in milliseconds.  Default:
 500ms.
 .TP
 .BI create_serialize \fR=\fPbool
 If true, serialize file creation for the jobs.  Default: true.
 .TP
 .BI create_fsync \fR=\fPbool
 \fIfsync\fR\|(2) data file after creation.  Default: true.
 .TP
 .BI unlink \fR=\fPbool
 Unlink job files when done.  Default: false.
 .TP
 .BI loops \fR=\fPint
 Specifies the number of iterations (runs of the same workload) of this job.
 Default: 1.
 .TP
 .BI do_verify \fR=\fPbool
 Run the verify phase after a write phase.  Only valid if \fBverify\fR is set.
 Default: true.
 .TP
 .BI verify \fR=\fPstr
 Method of verifying file contents after each iteration of the job.  Allowed
 values are:
 .RS
 .RS
 .TP
 .B md5 crc16 crc32 crc64 crc7 sha256 sha512
 Store appropriate checksum in the header of each block.
 .TP
 .B meta
 Write extra information about each I/O (timestamp, block number, etc.). The
 block number is verified.
 .TP
 .B pattern
 Fill I/O buffers with a specific pattern that is used to verify.  The pattern is
 specified by appending `:\fIint\fR' to the parameter. \fIint\fR cannot be larger
 than 32-bits.
 .TP
 .B null
 Pretend to verify.  Used for testing internals.
 .RE
 .RE
 .TP
 .BI verify_sort \fR=\fPbool
 If true, written verify blocks are sorted if \fBfio\fR deems it to be faster to
 read them back in a sorted manner.  Default: true.
 .TP
 .BI verify_offset \fR=\fPsiint
 Swap the verification header with data somewhere else in the block before
 writing.  It is swapped back before verifying.
 .TP
 .BI verify_interval \fR=\fPsiint
 Write the verification header for this number of bytes, which should divide
 \fBblocksize\fR.  Default: \fBblocksize\fR.
 .TP
 .BI verify_fatal \fR=\fPbool
 If true, exit the job on the first observed verification failure.  Default:
 false.
 .TP
 .B stonewall
 Wait for preceeding jobs in the job file to exit before starting this one.
 \fBstonewall\fR implies \fBnew_group\fR.
 .TP
 .B new_group
 Start a new reporting group.  If not given, all jobs in a file will be part
 of the same reporting group, unless separated by a stonewall.
 .TP
 .BI numjobs \fR=\fPint
 Number of clones (processes/threads performing the same workload) of this job.
 Default: 1.
 .TP
 .B group_reporting
 If set, display per-group reports instead of per-job when \fBnumjobs\fR is
 specified.
 .TP
 .B thread
 Use threads created with \fBpthread_create\fR\|(3) instead of processes created
 with \fBfork\fR\|(2).
 .TP
 .BI zonesize \fR=\fPsiint
 Divide file into zones of the specified size in bytes.  See \fBzoneskip\fR.
 .TP
 .BI zoneskip \fR=\fPsiint
 Skip the specified number of bytes when \fBzonesize\fR bytes of data have been
 read.
 .TP
 .BI write_iolog \fR=\fPstr
 Write the issued I/O patterns to the specified file.
 .TP
 .BI read_iolog \fR=\fPstr
 Replay the I/O patterns contained in the specified file generated by
 \fBwrite_iolog\fR, or may be a \fBblktrace\fR binary file.
 .TP
 .B write_bw_log
 If given, write bandwidth logs of the jobs in this file.
 .TP
 .B write_lat_log
 Same as \fBwrite_bw_log\fR, but writes I/O completion latencies.
 .TP
 .BI lockmem \fR=\fPsiint
 Pin the specified amount of memory with \fBmlock\fR\|(2).  Can be used to
 simulate a smaller amount of memory.
 .TP
 .BI exec_prerun \fR=\fPstr
 Before running the job, execute the specified command with \fBsystem\fR\|(3).
 .TP
 .BI exec_postrun \fR=\fPstr
 Same as \fBexec_prerun\fR, but the command is executed after the job completes.
 .TP
 .BI ioscheduler \fR=\fPstr
 Attempt to switch the device hosting the file to the specified I/O scheduler.
 .TP
 .BI cpuload \fR=\fPint
 If the job is a CPU cycle-eater, attempt to use the specified percentage of
 CPU cycles.
 .TP
 .BI cpuchunks \fR=\fPint
 If the job is a CPU cycle-eater, split the load into cycles of the
 given time in milliseconds.
 .TP
 .BI disk_util \fR=\fPbool
 Generate disk utilization statistics if the platform supports it. Default: true.
 .SH OUTPUT
 While running, \fBfio\fR will display the status of the created jobs.  For
 example:
 .RS
 .P
 Threads: 1: [_r] [24.8% done] [ 13509/  8334 kb/s] [eta 00h:01m:31s]
 .RE
 .P
 The characters in the first set of brackets denote the current status of each
 threads.  The possible values are:
 .P
 .PD 0
 .RS
 .TP
 .B P
 Setup but not started.
 .TP
 .B C
 Thread created.
 .TP
 .B I
 Initialized, waiting.
 .TP
 .B R
 Running, doing sequential reads.
 .TP
 .B r
 Running, doing random reads.
 .TP
 .B W
 Running, doing sequential writes.
 .TP
 .B w
 Running, doing random writes.
 .TP
 .B M
 Running, doing mixed sequential reads/writes.
 .TP
 .B m
 Running, doing mixed random reads/writes.
 .TP
 .B F
 Running, currently waiting for \fBfsync\fR\|(2).
 .TP
 .B V
 Running, verifying written data.
 .TP
 .B E
 Exited, not reaped by main thread.
 .TP
 .B \-
 Exited, thread reaped.
 .RE
 .PD
 .P
 The second set of brackets shows the estimated completion percentage of
 the current group.  The third set shows the read and write I/O rate,
 respectively. Finally, the estimated run time of the job is displayed.
 .P
 When \fBfio\fR completes (or is interrupted by Ctrl-C), it will show data
 for each thread, each group of threads, and each disk, in that order.
 .P
 Per-thread statistics first show the threads client number, group-id, and
 error code.  The remaining figures are as follows:
 .RS
 .TP
 .B io
 Number of megabytes of I/O performed.
 .TP
 .B bw
 Average data rate (bandwidth).
 .TP
 .B runt
 Threads run time.
 .TP
 .B slat
 Submission latency minimum, maximum, average and standard deviation. This is
 the time it took to submit the I/O.
 .TP
 .B clat
 Completion latency minimum, maximum, average and standard deviation.  This
 is the time between submission and completion.
 .TP
 .B bw
 Bandwidth minimum, maximum, percentage of aggregate bandwidth received, average
 and standard deviation.
 .TP
 .B cpu
 CPU usage statistics. Includes user and system time, number of context switches
 this thread went through and number of major and minor page faults.
 .TP
 .B IO depths
 Distribution of I/O depths.  Each depth includes everything less than (or equal)
 to it, but greater than the previous depth.
 .TP
 .B IO issued
 Number of read/write requests issued, and number of short read/write requests.
 .TP
 .B IO latencies
 Distribution of I/O completion latencies.  The numbers follow the same pattern
 as \fBIO depths\fR.
 .RE
 .P
 The group statistics show:
 .PD 0
 .RS
 .TP
 .B io
 Number of megabytes I/O performed.
 .TP
 .B aggrb
 Aggregate bandwidth of threads in the group.
 .TP
 .B minb
 Minimum average bandwidth a thread saw.
 .TP
 .B maxb
 Maximum average bandwidth a thread saw.
 .TP
 .B mint
 Shortest runtime of threads in the group.
 .TP
 .B maxt
 Longest runtime of threads in the group.
 .RE
 .PD
 .P
 Finally, disk statistics are printed with reads first:
 .PD 0
 .RS
 .TP
 .B ios
 Number of I/Os performed by all groups.
 .TP
 .B merge
 Number of merges in the I/O scheduler.
 .TP
 .B ticks
 Number of ticks we kept the disk busy.
 .TP
 .B io_queue
 Total time spent in the disk queue.
 .TP
 .B util
 Disk utilization.
 .RE
 .PD
 .SH TERSE OUTPUT
 If the \fB\-\-minimal\fR option is given, the results will be printed in a
 semicolon-delimited format suitable for scripted use.  The fields are:
 .P
 .RS
 .B jobname, groupid, error
 .P
 Read status:
 .RS
 .B KiB I/O, bandwidth \fR(KiB/s)\fP, runtime \fR(ms)\fP
 .P
 Submission latency:
 .RS
 .B min, max, mean, standard deviation
 .RE
 Completion latency:
 .RS
 .B min, max, mean, standard deviation
 .RE
 Bandwidth:
 .RS
 .B min, max, aggregate percentage of total, mean, standard deviation
 .RE
 .RE
 .P
 Write status:
 .RS
 .B KiB I/O, bandwidth \fR(KiB/s)\fP, runtime \fR(ms)\fP
 .P
 Submission latency:
 .RS
 .B min, max, mean, standard deviation
 .RE
 Completion latency:
 .RS
 .B min, max, mean, standard deviation
 .RE
 Bandwidth:
 .RS
 .B min, max, aggregate percentage of total, mean, standard deviation
 .RE
 .RE
 .P
 CPU usage:
 .RS
 .B user, system, context switches, major page faults, minor page faults
 .RE
 .P
 IO depth distribution:
 .RS
 .B <=1, 2, 4, 8, 16, 32, >=64
 .RE
 .P
 IO latency distribution (ms):
 .RS
 .B <=2, 4, 10, 20, 50, 100, 250, 500, 750, 1000, >=2000
 .RE
 .P
 .B text description
 .RE
 .SH AUTHORS
 .B fio
 was written by Jens Axboe <jens.axboe@oracle.com>.
 .br
 This man page was written by Aaron Carroll <aaronc@cse.unsw.edu.au> based
 on documentation by Jens Axboe.
 .SH "REPORTING BUGS"
 Report bugs to the \fBfio\fR mailing list <fio-devel@kernel.dk>.
 See \fBREADME\fR.
 .SH "SEE ALSO"
 For further documentation see \fBHOWTO\fR and \fBREADME\fR.
 .br
 Sample jobfiles are available in the \fBexamples\fR directory.