How can I quickly create a large file on a Linux (Red Hat Linux) system?

dd will do the job, but reading from /dev/zero and writing to the drive can take a long time when you need a file several hundreds of GBs in size for testing... If you need to do that repeatedly, the time really adds up.

I don't care about the contents of the file, I just want it to be created quickly. How can this be done?

Using a sparse file won't work for this. I need the file to be allocated disk space.

  • 1
    Ext4 has much better file allocation performance, since whole blocks of up to 100MB can be allocated at once.
    – martinus
    Commented Jan 29, 2009 at 16:09
  • 8
    The 'truncate' command creates a sparse file, by the way. E.g. see en.wikipedia.org/wiki/Sparse_file
    – Jason Drew
    Commented Jan 14, 2011 at 18:08
  • 6
    People seem to be grossly ignoring the "sparse file won't work with this", with their truncate and dd seeks below.
    – hpavc
    Commented Feb 25, 2016 at 18:53
  • 2
    You should have defined what you meant by "for testing". Testing the writing speed of your hard disk? Testing what df will report? Testing an app that does something particular. The answer depends on what you want to test. Anyway I'm a bit late -- I see now that it's been years since your question :-)
    – ndemou
    Commented Mar 10, 2016 at 20:24
  • 2
    Just in case you are looking for a way to simulate a full partition, like I was, look no further than /dev/full
    – Julian
    Commented Feb 17, 2017 at 9:28

16 Answers 16


dd from the other answers is a good solution, but it is slow for this purpose. In Linux (and other POSIX systems), we have fallocate, which uses the desired space without having to actually write anything to it, works with most modern disk based file systems, very fast:

For example:

fallocate -l 10G gentoo_root.img
  • 6
    Is it possible that dd is internally using that already? If I do 'dd if=/dev/zero of=zerofile bs=1G count=1' on a 3.0.0 kernel, the write finishes in 2 seconds, with a write data rate of over 500 megabytes per second. That's clearly impossible on a 2.5" laptop harddrive.
    – lxgr
    Commented Dec 5, 2011 at 12:32
  • 32
    fallocate is exactly what I was looking for.
    – A B
    Commented Jun 28, 2012 at 4:07
  • 9
    This (fallocate) will also not work on a Linux ZFS filesystem - github.com/zfsonlinux/zfs/issues/326
    – Joe
    Commented Nov 19, 2013 at 1:51
  • 8
    fallocate is not supported by ext3 either. bugzilla.redhat.com/show_bug.cgi?id=563492
    – Eddie
    Commented Jul 7, 2014 at 13:43
  • 5
    In Debian GNU/Linux fallocate is part of the util-linux package. This tool was written by Karel Zak from RedHat and source code can be found here: kernel.org/pub/linux/utils/util-linux
    – Franta
    Commented Sep 2, 2014 at 13:33

This is a common question -- especially in today's environment of virtual environments. Unfortunately, the answer is not as straight-forward as one might assume.

dd is the obvious first choice, but dd is essentially a copy and that forces you to write every block of data (thus, initializing the file contents)... And that initialization is what takes up so much I/O time. (Want to make it take even longer? Use /dev/random instead of /dev/zero! Then you'll use CPU as well as I/O time!) In the end though, dd is a poor choice (though essentially the default used by the VM "create" GUIs). E.g:

dd if=/dev/zero of=./gentoo_root.img bs=4k iflag=fullblock,count_bytes count=10G

truncate is another choice -- and is likely the fastest... But that is because it creates a "sparse file". Essentially, a sparse file is a section of disk that has a lot of the same data, and the underlying filesystem "cheats" by not really storing all of the data, but just "pretending" that it's all there. Thus, when you use truncate to create a 20 GB drive for your VM, the filesystem doesn't actually allocate 20 GB, but it cheats and says that there are 20 GB of zeros there, even though as little as one track on the disk may actually (really) be in use. E.g.:

 truncate -s 10G gentoo_root.img

fallocate is the final -- and best -- choice for use with VM disk allocation, because it essentially "reserves" (or "allocates" all of the space you're seeking, but it doesn't bother to write anything. So, when you use fallocate to create a 20 GB virtual drive space, you really do get a 20 GB file (not a "sparse file", and you won't have bothered to write anything to it -- which means virtually anything could be in there -- kind of like a brand new disk!) E.g.:

fallocate -l 10G gentoo_root.img
  • 5
    +1 truncate is functional on JFS; fallocate, not so much. One point: you can't include a decimal in the number, I needed to specify 1536G, not 1.5T.
    – Calrion
    Commented Sep 11, 2014 at 8:08
  • 1
    According to my fallocate man page, this is only supported on btrfs, ext4, ocfs2, and xfs filesystems Commented Feb 17, 2016 at 2:48
  • 2
    Note swapon unfortunately doesn't work on pre-allocated extents, last I checked. There was some discussion on the XFS mailing list about having an fallocate option to expose the old freespace data instead and not have the extent marked as preallocated, so swapon would work. But I don't think anything was ever done. Commented Mar 9, 2016 at 18:54
  • 2
    FYI, trying to read too much data from /dev/random can result in running out of random data, and "When the entropy pool is empty, reads from /dev/random will block until additional environmental noise is gathered" so it could take a very very very long time
    – Xen2050
    Commented Jan 9, 2017 at 7:41
  • Thanks, i was reading this brought me here: brianschrader.com/archive/… Commented Mar 26, 2021 at 7:43

Linux & all filesystems

xfs_mkfile 10240m 10Gigfile

Linux & and some filesystems (ext4, xfs, btrfs and ocfs2)

fallocate -l 10G 10Gigfile

OS X, Solaris, SunOS and probably other UNIXes

mkfile 10240m 10Gigfile


prealloc 10Gigfile 10737418240


Try mkfile <size> myfile as an alternative of dd. With the -n option the size is noted, but disk blocks aren't allocated until data is written to them. Without the -n option, the space is zero-filled, which means writing to the disk, which means taking time.

mkfile is derived from SunOS and is not available everywhere. Most Linux systems have xfs_mkfile which works exactly the same way, and not just on XFS file systems despite the name. It's included in xfsprogs (for Debian/Ubuntu) or similar named packages.

Most Linux systems also have fallocate, which only works on certain file systems (such as btrfs, ext4, ocfs2, and xfs), but is the fastest, as it allocates all the file space (creates non-holey files) but does not initialize any of it.

  • 5
    Where is this mkfile of which you speak, stranger? It's not in the default RHEL install.
    – paxdiablo
    Commented Nov 3, 2008 at 3:33
  • 2
    It's a solaris utility. if you search for gpl mkfile you will find some source code examples. Commented Nov 3, 2008 at 4:54
  • 5
    Works as a charme on OS X: mkfile 1g DELETE_IF_LOW_ON_SSD_SPACE.img Commented Jun 3, 2013 at 7:12
  • 3
    xfs_mkfile is included in xfsprogs on Ubuntu and works like a charm on my ext3 fs. :) Commented Feb 5, 2015 at 14:33
truncate -s 10M output.file

will create a 10 M file instantaneously (M stands for 10241024 bytes, MB stands for 10001000 - same with K, KB, G, GB...)

EDIT: as many have pointed out, this will not physically allocate the file on your device. With this you could actually create an arbitrary large file, regardless of the available space on the device, as it creates a "sparse" file.

For e.g. notice no HDD space is consumed with this command:

$ df -h | grep lvm
                      7.2T  6.6T  232G  97% /export/lvm-raid0

$ truncate -s 500M 500MB.file

$ df -h | grep lvm
                      7.2T  6.6T  232G  97% /export/lvm-raid0

So, when doing this, you will be deferring physical allocation until the file is accessed. If you're mapping this file to memory, you may not have the expected performance.

But this is still a useful command to know. For e.g. when benchmarking transfers using files, the specified size of the file will still get moved.

$ rsync -aHAxvP --numeric-ids --delete --info=progress2 \
       [email protected]:/export/lvm-raid0/500MB.file \
receiving incremental file list
    524,288,000 100%   41.40MB/s    0:00:12 (xfr#1, to-chk=0/1)

sent 30 bytes  received 524,352,082 bytes  38,840,897.19 bytes/sec
total size is 524,288,000  speedup is 1.00
  • 1
    Tried this, but it doesn't affect available disk space. Must because it is a sparse file as described previously. Commented Feb 20, 2013 at 3:34
  • 7
    This shouldn't be the top answer as it doesn't solve the problem, the fallocate answer below does. Commented Feb 20, 2013 at 3:58
  • 5
    @GringoSuave but this is still useful for some people that may have a similar-but-slightly-different problem. Commented Jun 18, 2013 at 20:41
  • @GringoSuave: It seems to create a large file as requested, why does it not solve the problem? Also there are notes under the fallocate answer that it doesn't even work in most cases. Commented Jul 8, 2014 at 5:13
  • 2
    Why suggest making sparse files when he said that will not work?
    – hpavc
    Commented Feb 25, 2016 at 18:54

Where seek is the size of the file you want in bytes - 1.

dd if=/dev/zero of=filename bs=1 count=1 seek=1048575
  • 7
    I like this approach, but the commenter doesn't want a sparse file for some reason. :(
    – ephemient
    Commented Nov 3, 2008 at 15:19
  • 3
    dd if=/dev/zero of=1GBfile bs=1000 count=1000000
    – Damien
    Commented Oct 7, 2010 at 18:20
  • 9
    dd if=/dev/zero of=01GBfile bs=1024 count=$((1024 * 1024)) Commented Aug 31, 2011 at 10:01
  • 1
    For sparse files, truncate seems to be much better. Commented Jul 8, 2014 at 5:16

Examples where seek is the size of the file you want in bytes

dd if=/dev/zero of=filename bs=1 count=0 seek=200K

dd if=/dev/zero of=filename bs=1 count=0 seek=200M

dd if=/dev/zero of=filename bs=1 count=0 seek=200G

dd if=/dev/zero of=filename bs=1 count=0 seek=200T

From the dd manpage:

BLOCKS and BYTES may be followed by the following multiplicative suffixes: c=1, w=2, b=512, kB=1000, K=1024, MB=1000*1000, M=1024*1024, GB =1000*1000*1000, G=1024*1024*1024, and so on for T, P, E, Z, Y.

  • This looks much better than the n-1 way, so it's basically equivalent to truncate. Commented Jul 8, 2014 at 5:18

To make a 1 GB file:

dd if=/dev/zero of=filename bs=1G count=1
  • 7
    I believe count must be 1. (tested on centos)
    – SvennD
    Commented Nov 16, 2015 at 13:08
  • 1
    dd if=/dev/zero of=filename bs=20G count=1 will only create 2GB file! not 20GB.
    – Maulik
    Commented Sep 17, 2017 at 13:07
  • 1
    @MaulikGangani What FS was that on? Looks like you're hitting file size limit on an old FS. Also, avoid using such large block sizes with dd, I believe it might try to allocate all that memory at once. Was this on a thumb drive? Consider formatting it with UDF if you need to store big files in it.
    – Guilherme
    Commented Sep 30, 2020 at 16:04

I don't know a whole lot about Linux, but here's the C Code I wrote to fake huge files on DC Share many years ago.

#include < stdio.h >
#include < stdlib.h >

int main() {
    int i;
    FILE *fp;


    for(i=0;i<(1024*1024);i++) {
  • 1
    there must be better approaches in C. You also need to close the file. Iterating to a million writing 1 char at a time...
    – ACV
    Commented Oct 9, 2018 at 6:47

You can use "yes" command also. The syntax is fairly simple:

#yes >> myfile

Press "Ctrl + C" to stop this, else it will eat up all your space available.

To clean this file run:


will clean this file.


I don't think you're going to get much faster than dd. The bottleneck is the disk; writing hundreds of GB of data to it is going to take a long time no matter how you do it.

But here's a possibility that might work for your application. If you don't care about the contents of the file, how about creating a "virtual" file whose contents are the dynamic output of a program? Instead of open()ing the file, use popen() to open a pipe to an external program. The external program generates data whenever it's needed. Once the pipe is open, it acts just like a regular file in that the program that opened the pipe can fseek(), rewind(), etc. You'll need to use pclose() instead of close() when you're done with the pipe.

If your application needs the file to be a certain size, it will be up to the external program to keep track of where in the "file" it is and send an eof when the "end" has been reached.


The GPL mkfile is just a (ba)sh script wrapper around dd; BSD's mkfile just memsets a buffer with non-zero and writes it repeatedly. I would not expect the former to out-perform dd. The latter might edge out dd if=/dev/zero slightly since it omits the reads, but anything that does significantly better is probably just creating a sparse file.

Absent a system call that actually allocates space for a file without writing data (and Linux and BSD lack this, probably Solaris as well) you might get a small improvement in performance by using ftrunc(2)/truncate(1) to extend the file to the desired size, mmap the file into memory, then write non-zero data to the first bytes of every disk block (use fgetconf to find the disk block size).

  • 4
    BSD and Linux have fallocate actually (edit: it's now POSIX and widely available).
    – Tobu
    Commented Apr 24, 2013 at 10:05

One approach: if you can guarantee unrelated applications won't use the files in a conflicting manner, just create a pool of files of varying sizes in a specific directory, then create links to them when needed.

For example, have a pool of files called:

  • /home/bigfiles/512M-A
  • /home/bigfiles/512M-B
  • /home/bigfiles/1024M-A
  • /home/bigfiles/1024M-B

Then, if you have an application that needs a 1G file called /home/oracle/logfile, execute a "ln /home/bigfiles/1024M-A /home/oracle/logfile".

If it's on a separate filesystem, you will have to use a symbolic link.

The A/B/etc files can be used to ensure there's no conflicting use between unrelated applications.

The link operation is about as fast as you can get.

  • You can have a small pool or a large pool, it's your choice. You were going to need at least one file anyway, since that's what the questioner asked for. If your pool consists of one file, you lose nothing. If you have bucketloads of disk (and you should, given its low price), there's no issue.
    – paxdiablo
    Commented Nov 3, 2008 at 3:50

This is the fastest I could do (which is not fast) with the following constraints:

  • The goal of the large file is to fill a disk, so can't be compressible.
  • Using ext3 filesystem. (fallocate not available)

This is the gist of it...

// include stdlib.h, stdio.h, and stdint.h
int32_t buf[256]; // Block size.
for (int i = 0; i < 256; ++i)
    buf[i] = rand(); // random to be non-compressible.
FILE* file = fopen("/file/on/your/system", "wb");
int blocksToWrite = 1024 * 1024; // 1 GB
for (int i = 0; i < blocksToWrite; ++i)
   fwrite(buf, sizeof(int32_t), 256, file);

In our case this is for an embedded linux system and this works well enough, but would prefer something faster.

FYI the command dd if=/dev/urandom of=outputfile bs=1024 count = XX was so slow as to be unusable.

  • 1
    It's perfectly compressible right down to 1028 bytes since you're just writing the same block over and over. Commented Jul 28, 2020 at 12:59
  • Why is dd unusable? On my server with an Intel 6246 processor, using a bs of 4096 (not 1024), I was able to create a completely random 1G file in 5 seconds. In this example, on my system (sizeof int32_t is 4 bytes) we're creating a 1k block of random data, repeated 1M times. You're comparing apples to oranges; the random file won't compress; yours will because it's repeated. A dd copy of a file created by this C code takes under a second. The fault is not dd's, it's in how you use it and what you want it to do. A small input file could be dumped repeatedly to an output file in similar time.
    – Mike S
    Commented Apr 20, 2022 at 18:56
  • time { dd if=/dev/urandom of=tmprandfile bs=1024 count=1; yes < tmprandfile | head -c 1073741824 > tmpfile; } takes 1.5s on my server. The C code takes 0.7s.
    – Mike S
    Commented Apr 20, 2022 at 18:57

Shameless plug: OTFFS provides a file system providing arbitrarily large (well, almost. Exabytes is the current limit) files of generated content. It is Linux-only, plain C, and in early alpha.

See https://github.com/s5k6/otffs.


So I wanted to create a large file with repeated ascii strings. "Why?" you may ask. Because I need to use it for some NFS troubleshooting I'm doing. I need the file to be compressible because I'm sharing a tcpdump of a file copy with the vendor of our NAS. I had originally created a 1g file filled with random data from /dev/urandom, but of course since it's random, it means it won't compress at all and I need to send the full 1g of data to the vendor, which is difficult.

So I created a file with all the printable ascii characters, repeated over and over, to a limit of 1g in size. I was worried it would take a long time. It actually went amazingly quickly, IMHO:

cd /dev/shm
time yes $(for ((i=32;i<127;i++)) do printf "\\$(printf %03o "$i")"; done) | head -c 1073741824 > ascii1g_file.txt

Wed Apr 20 12:30:13 CDT 2022

real    0m0.773s
user    0m0.060s
sys     0m1.195s
Wed Apr 20 12:30:14 CDT 2022

Copying it from an nfs partition to /dev/shm took just as long as with the random file (which one would expect, I know, but I wanted to be sure):

cp ascii1gfile.txt /home/greygnome/
uptime; free -m; sync; echo 1 > /proc/sys/vm/drop_caches; free -m; date; dd if=/home/greygnome/ascii1gfile.txt of=/dev/shm/outfile bs=16384 2>&1; date; rm -f /dev/shm/outfile 

But while doing that I ran a simultaneous tcpdump:

tcpdump -i em1 -w /dev/shm/dump.pcap

I was able to compress the pcap file down to 12M in size! Awesomesauce!

Edit: Before you ding me because the OP said, "I don't care about the contents," know that I posted this answer because it's one of the first replies to "how to create a large file linux" in a Google search. And sometimes, disregarding the contents of a file can have unforeseen side effects. Edit 2: And fallocate seems to be unavailable on a number of filesystems, and creating a 1GB compressible file in 1.2s seems pretty decent to me (aka, "quickly").


You could use https://github.com/flew-software/trash-dump you can create file that is any size and with random data

heres a command you can run after installing trash-dump (creates a 1GB file)

$ trash-dump --filename="huge" --seed=1232 --noBytes=1000000000

BTW I created it

  • The question is about creating the file "quickly". Creating a file with a generated contents will unlikely be quickly. Commented Jan 15, 2021 at 10:12

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