I have a problem with the nohup command.

When I run my job, I have a lot of data. The output nohup.out becomes too large and my process slows down. How can I run this command without getting nohup.out?


8 Answers 8


The nohup command only writes to nohup.out if the output would otherwise go to the terminal. If you have redirected the output of the command somewhere else - including /dev/null - that's where it goes instead.

 nohup command >/dev/null 2>&1   # doesn't create nohup.out

Note that the >/dev/null 2>&1 sequence can be abbreviated to just >&/dev/null in most (but not all) shells.

If you're using nohup, that probably means you want to run the command in the background by putting another & on the end of the whole thing:

 nohup command >/dev/null 2>&1 & # runs in background, still doesn't create nohup.out

On Linux, running a job with nohup automatically closes its input as well. On other systems, notably BSD and macOS, that is not the case, so when running in the background, you might want to close input manually. While closing input has no effect on the creation or not of nohup.out, it avoids another problem: if a background process tries to read anything from standard input, it will pause, waiting for you to bring it back to the foreground and type something. So the extra-safe version looks like this:

nohup command </dev/null >/dev/null 2>&1 & # completely detached from terminal 

Note, however, that this does not prevent the command from accessing the terminal directly, nor does it remove it from your shell's process group. If you want to do the latter, and you are running bash, ksh, or zsh, you can do so by running disown with no argument as the next command. That will mean the background process is no longer associated with a shell "job" and will not have any signals forwarded to it from the shell. (A disowned process gets no signals forwarded to it automatically by its parent shell - but without nohup, it will still receive a HUP signal sent via other means, such as a manual kill command. A nohup'ed process ignores any and all HUP signals, no matter how they are sent.)


In Unixy systems, every source of input or target of output has a number associated with it called a "file descriptor", or "fd" for short. Every running program ("process") has its own set of these, and when a new process starts up it has three of them already open: "standard input", which is fd 0, is open for the process to read from, while "standard output" (fd 1) and "standard error" (fd 2) are open for it to write to. If you just run a command in a terminal window, then by default, anything you type goes to its standard input, while both its standard output and standard error get sent to that window.

But you can ask the shell to change where any or all of those file descriptors point before launching the command; that's what the redirection (<, <<, >, >>) and pipe (|) operators do.

The pipe is the simplest of these... command1 | command2 arranges for the standard output of command1 to feed directly into the standard input of command2. This is a very handy arrangement that has led to a particular design pattern in UNIX tools (and explains the existence of standard error, which allows a program to send messages to the user even though its output is going into the next program in the pipeline). But you can only pipe standard output to standard input; you can't send any other file descriptors to a pipe without some juggling.

The redirection operators are friendlier in that they let you specify which file descriptor to redirect. So 0<infile reads standard input from the file named infile, while 2>>logfile appends standard error to the end of the file named logfile. If you don't specify a number, then input redirection defaults to fd 0 (< is the same as 0<), while output redirection defaults to fd 1 (> is the same as 1>).

Also, you can combine file descriptors together: 2>&1 means "send standard error wherever standard output is going". That means that you get a single stream of output that includes both standard out and standard error intermixed with no way to separate them anymore, but it also means that you can include standard error in a pipe.

So the sequence >/dev/null 2>&1 means "send standard output to /dev/null" (which is a special device that just throws away whatever you write to it) "and then send standard error to wherever standard output is going" (which we just made sure was /dev/null). Basically, "throw away whatever this command writes to either file descriptor".

When nohup detects that neither its standard error nor output is attached to a terminal, it doesn't bother to create nohup.out, but assumes that the output is already redirected where the user wants it to go.

The /dev/null device works for input, too; if you run a command with </dev/null, then any attempt by that command to read from standard input will instantly encounter end-of-file. Note that the merge syntax won't have the same effect here; it only works to point a file descriptor to another one that's open in the same direction (input or output). The shell will let you do >/dev/null <&1, but that winds up creating a process with an input file descriptor open on an output stream, so instead of just hitting end-of-file, any read attempt will trigger a fatal "invalid file descriptor" error.

  • 1
    Regarding nohup, " if the process later tries to read anything from standard input, it will pause, waiting for you to bring it back to the foreground and type something." seems incorrect. Instead, nohup closes standard input (the program will not be able to read any input, even if it is run in the foreground. it is not halted, but will receive an error code or EOF).
    – Tim
    Mar 1, 2016 at 4:27
  • 2
    @Tim - that answer is correct for Linux, but not for BSD or OS X, on which nohup does not close standard input automatically. Note that nohup is not a shell builtin but a binary utility.
    – Mark Reed
    Mar 1, 2016 at 4:52
  • nohup is part of coreutils. Do you mean the implementation of nohup is different for linux and for BSD or OS X?
    – Tim
    Mar 1, 2016 at 5:01
  • 2
    Yes. The name "coreutils" refers to a GNU package. But BSD, OS X, SmartOS/Illumos, and many commercial Unixes - basically, those that have been around longer than GNU - have non-GNU core utilities. awk is different, sed is different, nohup is different...
    – Mark Reed
    Mar 1, 2016 at 5:15
  • 2
    This is the best. Works each of 3 ways perfectly ecplained for each own needs. THx
    – Kangarooo
    Jul 15, 2017 at 0:53
nohup some_command > /dev/null 2>&1&

That's all you need to do!

  • 4
    There was another answer that almost had this same thing, but they didn't have the extra "&" on the end.
    – 11101101b
    May 22, 2012 at 19:03
  • 11
    The & on the will keep you from needing to use ctrl-c, if that matters to you.
    – SunSparc
    May 29, 2013 at 19:53
  • 2
    The ability to run in BG is very helpful
    – ist_lion
    Jul 15, 2015 at 0:57
  • This is only useful if you're not fussed about capturing some_command output, including error.
    – wulfgarpro
    May 10, 2017 at 1:07

Have you tried redirecting all three I/O streams:

nohup ./yourprogram > foo.out 2> foo.err < /dev/null &
  • 1
    Shouldn't it be > /dev/null rather than < /dev/null?
    – Scott Chu
    Nov 24, 2016 at 1:18
  • 3
    @ScottChu < /dev/null redirects the standard input for nohup. Linux does not require this but POSIX allows behavior where nohup cannot run on the background if it's standard input is connected to terminal. Examples of such systems are BSD and OS X. Jan 25, 2018 at 17:59

You might want to use the detach program. You use it like nohup but it doesn't produce an output log unless you tell it to. Here is the man page:

       detach - run a command after detaching from the terminal

       detach [options] [--] command [args]

       Forks  a  new process, detaches is from the terminal, and executes com‐
       mand with the specified arguments.

       detach recognizes a couple of options, which are discussed below.   The
       special  option -- is used to signal that the rest of the arguments are
       the command and args to be passed to it.

       -e file
              Connect file to the standard error of the command.

       -f     Run in the foreground (do not fork).

       -i file
              Connect file to the standard input of the command.

       -o file
              Connect file to the standard output of the command.

       -p file
              Write the pid of the detached process to file.

       detach xterm

       Start an xterm that will not be closed when the current shell exits.

       detach was written by Robbert Haarman.  See  http://inglorion.net/  for
       contact information.

Note I have no affiliation with the author of the program. I'm only a satisfied user of the program.

  • 2
    The link is not broken and that git repo is old. It does not include the current v0.2.3.
    – Dan D.
    Mar 20, 2014 at 18:37

Following command will let you run something in the background without getting nohup.out:

nohup command |tee &

In this way, you will be able to get console output while running script on the remote server: enter image description here

sudo bash -c "nohup /opt/viptel/viptel_bin/log.sh $* &> /dev/null"  &

Redirecting the output of sudo causes sudo to reask for the password, thus an awkward mechanism is needed to do this variant.


If you have a BASH shell on your mac/linux in-front of you, you try out the below steps to understand the redirection practically :

Create a 2 line script called zz.sh

echo "Hello. This is a proper command"
  • The echo command's output goes into STDOUT filestream (file descriptor 1).
  • The error command's output goes into STDERR filestream (file descriptor 2)

Currently, simply executing the script sends both STDOUT and STDERR to the screen.


Now start with the standard redirection :

zz.sh > zfile.txt

In the above, "echo" (STDOUT) goes into the zfile.txt. Whereas "error" (STDERR) is displayed on the screen.

The above is the same as :

zz.sh 1> zfile.txt

Now you can try the opposite, and redirect "error" STDERR into the file. The STDOUT from "echo" command goes to the screen.

zz.sh 2> zfile.txt

Combining the above two, you get:

zz.sh 1> zfile.txt 2>&1


  • FIRST, send STDOUT 1 to zfile.txt
  • THEN, send STDERR 2 to STDOUT 1 itself (by using &1 pointer).
  • Therefore, both 1 and 2 goes into the same file (zfile.txt)

Eventually, you can pack the whole thing inside nohup command & to run it in the background:

nohup zz.sh 1> zfile.txt 2>&1&

You can run the below command.

nohup <your command> & >  <outputfile> 2>&1 &

e.g. I have a nohup command inside script

./Runjob.sh > sparkConcuurent.out 2>&1

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