I am trying to write a .sh file that runs many programs simultaneously

I tried this

prog1 
prog2

But that runs prog1 then waits until prog1 ends and then starts prog2...

So how can I run them in parallel?

  • 11
    Close voters: this is about writing a script, which is appropriate for SO. I don't think it should be migrated. – Bill the Lizard Jun 9 '10 at 12:41

13 Answers 13

up vote 142 down vote accepted
prog1 &
prog2 &
  • 30
    Do not forget the wait! Yes, in bash you can wait for the script's child processes. – Dummy00001 Jun 10 '10 at 18:43
  • 5
    Another option is to use nohup to prevent the program from being killed when the shell hangs up. – Philipp Jul 24 '10 at 13:31

How about:

prog1 & prog2 && fg

This will:

  1. Start prog1.
  2. Send it to background, but keep printing its output.
  3. Start prog2, and keep it in foreground, so you can close it with ctrl-c.
  4. When you close prog2, you'll return to prog1's foreground, so you can also close it with ctrl-c.
  • 2
    excellent, exactly what I was looking for! – Aktau Mar 25 '13 at 15:36
  • 6
    Is there an easy way to terminate prog1 when prog2 terminates? Think of node srv.js & cucumberjs – J P Nov 5 '15 at 16:31
  • 10
    Just tried this, and it didn't work as expected for me. However, a slight modification worked: prog1 & prog2 ; fg This was for running multiple ssh tunnels at once. Hope this helps someone. – jnadro52 Jan 20 '16 at 20:18
  • 2
    @jnadro52 your solution has the effect that if prog2 fails to run immediately, you'll get back to having prog1 in the foreground. If this is desirable, then it's ok. – Ory Band Jan 21 '16 at 9:29
  • 5
    @jnadro52 A way to terminate both processes at once is prog1 & prog2 && kill $!. – zaboco Apr 25 '17 at 16:35

With GNU Parallel http://www.gnu.org/software/parallel/ it is as easy as:

(echo prog1; echo prog2) | parallel

Or if you prefer:

parallel ::: prog1 prog2

Learn more:

  • 4
    It is worth noting that there are different versions of parallel with different syntax. For example, on Debian derivatives the moreutils package contains a different command called parallel which behaves quite differently. – Joel Cross Nov 18 '16 at 14:24

You can use wait:

some_command &
P1=$!
other_command &
P2=$!
wait $P1 $P2

It assigns the background program PIDs to variables ($! is the last launched process' PID), then the wait command waits for them. It is nice because if you kill the script, it kills the processes too!

#!/bin/bash
prog1 & 2> .errorprog1.log; prog2 & 2> .errorprog2.log

Redirect errors to separate logs.

  • 11
    You have to put the ampersands after the redirections and leave out the semicolon (the ampersand will also perform the function of a command separator): prog1 2> .errorprog1.log & prog2 2> .errorprog2.log & – Dennis Williamson Jun 9 '10 at 10:42
  • the semicolon execute both comands, you can test de bash to see it work well ;) Example: pwd & 2> .errorprog1.log; echo "wop" & 2> .errorprog2.log when you put & you put program in background and immediately execute next command. – fermin Jun 9 '10 at 22:49
  • 1
    It doesn't work - the errors do not get redirected to the file. Try with: ls notthere1 & 2> .errorprog1.log; ls notthere2 & 2>.errorprog2.log. The errors go to the console, and both error files are empty. As @Dennis Williamson says, & is a separator, like ;, so (a) it needs to go at the end of the command (after any redirecton), and (b) you don't need the ; at all :-) – psmears Dec 12 '10 at 20:38

There is a very useful program that calls nohup.

     nohup - run a command immune to hangups, with output to a non-tty
  • 1
    nohup by itself doesn't run anything in the background, and using nohup is not a requirement or prerequisite for running tasks in the background. They are often useful together but as such, this doesn't answer the question. – tripleee Jan 24 at 15:32

You can try ppss. ppss is rather powerful - you can even create a mini-cluster. xargs -P can also be useful if you've got a batch of embarrassingly parallel processing to do.

Here is a function I use in order to run at max n process in parallel (n=4 in the example):

max_children=4

function parallel {
  local time1=$(date +"%H:%M:%S")
  local time2=""

  # for the sake of the example, I'm using $2 as a description, you may be interested in other description
  echo "starting $2 ($time1)..."
  "$@" && time2=$(date +"%H:%M:%S") && echo "finishing $2 ($time1 -- $time2)..." &

  local my_pid=$$
  local children=$(ps -eo ppid | grep -w $my_pid | wc -w)
  children=$((children-1))
  if [[ $children -ge $max_children ]]; then
    wait -n
  fi
}

parallel sleep 5
parallel sleep 6
parallel sleep 7
parallel sleep 8
parallel sleep 9
wait

If max_children is set to the number of cores, this function will try to avoid idle cores.

  • 1
    Nice snippet, but I can't find the explanation of "wait -n" under my bash it says that is an invalid option . typo or do I missed something ? – Emmanuel Devaux Mar 6 '17 at 14:10
  • 1
    @EmmanuelDevaux: wait -n requires bash 4.3+ and it changes the logic to waiting for any of the specified / implied processes to terminate. – mklement0 May 22 '17 at 23:06

I had a similar situation recently where I needed to run multiple programs at the same time, redirect their outputs to separated log files and wait for them to finish and I ended up with something like that:

#!/bin/bash

# Add the full path processes to run to the array
PROCESSES_TO_RUN=("/home/joao/Code/test/prog_1/prog1" \
                  "/home/joao/Code/test/prog_2/prog2")
# You can keep adding processes to the array...

for i in ${PROCESSES_TO_RUN[@]}; do
    ${i%/*}/./${i##*/} > ${i}.log 2>&1 &
    # ${i%/*} -> Get folder name until the /
    # ${i##*/} -> Get the filename after the /
done

# Wait for the processes to finish
wait

Source: http://joaoperibeiro.com/execute-multiple-programs-and-redirect-their-outputs-linux/

xargs -P <n> allows you to run <n> commands in parallel.

While -P is a nonstandard option, both the GNU (Linux) and macOS/BSD implementations support it.

The following example:

  • runs at most 3 commands in parallel at a time,
  • with additional commands starting only when a previously launched process terminates.
time xargs -P 3 -I {} sh -c 'eval "$1"' - {} <<'EOF'
sleep 1; echo 1
sleep 2; echo 2
sleep 3; echo 3
echo 4
EOF

The output looks something likes:

1   # output from 1st command 
4   # output from *last* command, which started as soon as the count dropped below 3
2   # output from 2nd command
3   # output from 3rd command

real    0m3.012s
user    0m0.011s
sys 0m0.008s

The timing shows that the commands were run in parallel (the last command was launched only after the first of the original 3 terminated, but executed very quickly).

The xargs command itself won't return until all commands have finished, but you can execute it in the background by terminating it with control operator & and then using the wait builtin to wait for the entire xargs command to finish.

{
  xargs -P 3 -I {} sh -c 'eval "$1"' - {} <<'EOF'
sleep 1; echo 1
sleep 2; echo 2
sleep 3; echo 3
echo 4
EOF
} &

# Script execution continues here while `xargs` is running 
# in the background.
echo "Waiting for commands to finish..."

# Wait for `xargs` to finish, via special variable $!, which contains
# the PID of the most recently started background process.
wait $!

Note:

  • BSD/macOS xargs requires you to specify the count of commands to run in parallel explicitly, whereas GNU xargs allows you to specify -P 0 to run as many as possible in parallel.

  • Output from the processes run in parallel arrives as it is being generated, so it will be unpredictably interleaved.

    • GNU parallel, as mentioned in Ole's answer (does not come standard with most platforms), conveniently serializes (groups) the output on a per-process basis and offers many more advanced features.

Process Spawning Manager

Sure, technically these are processes, and this program should really be called a process spawning manager, but this is only due to the way that BASH works when it forks using the ampersand, it uses the fork() or perhaps clone() system call which clones into a separate memory space, rather than something like pthread_create() which would share memory. If BASH supported the latter, each "sequence of execution" would operate just the same and could be termed to be traditional threads whilst gaining a more efficient memory footprint. Functionally however it works the same, though a bit more difficult since GLOBAL variables are not available in each worker clone hence the use of the inter-process communication file and the rudimentary flock semaphore to manage critical sections. Forking from BASH of course is the basic answer here but I feel as if people know that but are really looking to manage what is spawned rather than just fork it and forget it. This demonstrates a way to manage up to 200 instances of forked processes all accessing a single resource. Clearly this is overkill but I enjoyed writing it so I kept on. Increase the size of your terminal accordingly. I hope you find this useful.

ME=$(basename $0)
IPC="/tmp/$ME.ipc"      #interprocess communication file (global thread accounting stats)
DBG=/tmp/$ME.log
echo 0 > $IPC           #initalize counter
F1=thread
SPAWNED=0
COMPLETE=0
SPAWN=1000              #number of jobs to process
SPEEDFACTOR=1           #dynamically compensates for execution time
THREADLIMIT=50          #maximum concurrent threads
TPS=1                   #threads per second delay
THREADCOUNT=0           #number of running threads
SCALE="scale=5"         #controls bc's precision
START=$(date +%s)       #whence we began
MAXTHREADDUR=6         #maximum thread life span - demo mode

LOWER=$[$THREADLIMIT*100*90/10000]   #90% worker utilization threshold
UPPER=$[$THREADLIMIT*100*95/10000]   #95% worker utilization threshold
DELTA=10                             #initial percent speed change

threadspeed()        #dynamically adjust spawn rate based on worker utilization
{
   #vaguely assumes thread execution average will be consistent
   THREADCOUNT=$(threadcount)
   if [ $THREADCOUNT -ge $LOWER ] && [ $THREADCOUNT -le $UPPER ] ;then
      echo SPEED HOLD >> $DBG
      return
   elif [ $THREADCOUNT -lt $LOWER ] ;then
      #if maxthread is free speed up
      SPEEDFACTOR=$(echo "$SCALE;$SPEEDFACTOR*(1-($DELTA/100))"|bc)
      echo SPEED UP $DELTA%>> $DBG
   elif [ $THREADCOUNT -gt $UPPER ];then
      #if maxthread is active then slow down
      SPEEDFACTOR=$(echo "$SCALE;$SPEEDFACTOR*(1+($DELTA/100))"|bc)
      DELTA=1                            #begin fine grain control
      echo SLOW DOWN $DELTA%>> $DBG
   fi

   echo SPEEDFACTOR $SPEEDFACTOR >> $DBG

   #average thread duration   (total elapsed time / number of threads completed)
   #if threads completed is zero (less than 100), default to maxdelay/2  maxthreads

   COMPLETE=$(cat $IPC)

   if [ -z $COMPLETE ];then
      echo BAD IPC READ ============================================== >> $DBG
      return
   fi

   #echo Threads COMPLETE $COMPLETE >> $DBG
   if [ $COMPLETE -lt 100 ];then
      AVGTHREAD=$(echo "$SCALE;$MAXTHREADDUR/2"|bc)
   else
      ELAPSED=$[$(date +%s)-$START]
      #echo Elapsed Time $ELAPSED >> $DBG
      AVGTHREAD=$(echo "$SCALE;$ELAPSED/$COMPLETE*$THREADLIMIT"|bc)
   fi
   echo AVGTHREAD Duration is $AVGTHREAD >> $DBG

   #calculate timing to achieve spawning each workers fast enough
   # to utilize threadlimit - average time it takes to complete one thread / max number of threads
   TPS=$(echo "$SCALE;($AVGTHREAD/$THREADLIMIT)*$SPEEDFACTOR"|bc)
   #TPS=$(echo "$SCALE;$AVGTHREAD/$THREADLIMIT"|bc)  # maintains pretty good
   #echo TPS $TPS >> $DBG

}
function plot()
{
   echo -en \\033[${2}\;${1}H

   if [ -n "$3" ];then
         if [[ $4 = "good" ]];then
            echo -en "\\033[1;32m"
         elif [[ $4 = "warn" ]];then
            echo -en "\\033[1;33m"
         elif [[ $4 = "fail" ]];then
            echo -en "\\033[1;31m"
         elif [[ $4 = "crit" ]];then
            echo -en "\\033[1;31;4m"
         fi
   fi
      echo -n "$3"
      echo -en "\\033[0;39m"
}

trackthread()   #displays thread status
{
   WORKERID=$1
   THREADID=$2
   ACTION=$3    #setactive | setfree | update
   AGE=$4

   TS=$(date +%s)

   COL=$[(($WORKERID-1)/50)*40]
   ROW=$[(($WORKERID-1)%50)+1]

   case $ACTION in
      "setactive" )
         touch /tmp/$ME.$F1$WORKERID  #redundant - see main loop
         #echo created file $ME.$F1$WORKERID >> $DBG
         plot $COL $ROW "Worker$WORKERID: ACTIVE-TID:$THREADID INIT    " good
         ;;
      "update" )
         plot $COL $ROW "Worker$WORKERID: ACTIVE-TID:$THREADID AGE:$AGE" warn
         ;;
      "setfree" )
         plot $COL $ROW "Worker$WORKERID: FREE                         " fail
         rm /tmp/$ME.$F1$WORKERID
         ;;
      * )

      ;;
   esac
}

getfreeworkerid()
{
   for i in $(seq 1 $[$THREADLIMIT+1])
   do
      if [ ! -e /tmp/$ME.$F1$i ];then
         #echo "getfreeworkerid returned $i" >> $DBG
         break
      fi
   done
   if [ $i -eq $[$THREADLIMIT+1] ];then
      #echo "no free threads" >> $DBG
      echo 0
      #exit
   else
      echo $i
   fi
}

updateIPC()
{
   COMPLETE=$(cat $IPC)        #read IPC
   COMPLETE=$[$COMPLETE+1]     #increment IPC
   echo $COMPLETE > $IPC       #write back to IPC
}


worker()
{
   WORKERID=$1
   THREADID=$2
   #echo "new worker WORKERID:$WORKERID THREADID:$THREADID" >> $DBG

   #accessing common terminal requires critical blocking section
   (flock -x -w 10 201
      trackthread $WORKERID $THREADID setactive
   )201>/tmp/$ME.lock

   let "RND = $RANDOM % $MAXTHREADDUR +1"

   for s in $(seq 1 $RND)               #simulate random lifespan
   do
      sleep 1;
      (flock -x -w 10 201
         trackthread $WORKERID $THREADID update $s
      )201>/tmp/$ME.lock
   done

   (flock -x -w 10 201
      trackthread $WORKERID $THREADID setfree
   )201>/tmp/$ME.lock

   (flock -x -w 10 201
      updateIPC
   )201>/tmp/$ME.lock
}

threadcount()
{
   TC=$(ls /tmp/$ME.$F1* 2> /dev/null | wc -l)
   #echo threadcount is $TC >> $DBG
   THREADCOUNT=$TC
   echo $TC
}

status()
{
   #summary status line
   COMPLETE=$(cat $IPC)
   plot 1 $[$THREADLIMIT+2] "WORKERS $(threadcount)/$THREADLIMIT  SPAWNED $SPAWNED/$SPAWN  COMPLETE $COMPLETE/$SPAWN SF=$SPEEDFACTOR TIMING=$TPS"
   echo -en '\033[K'                   #clear to end of line
}

function main()
{
   while [ $SPAWNED -lt $SPAWN ]
   do
      while [ $(threadcount) -lt $THREADLIMIT ] && [ $SPAWNED -lt $SPAWN ]
      do
         WID=$(getfreeworkerid)
         worker $WID $SPAWNED &
         touch /tmp/$ME.$F1$WID    #if this loops faster than file creation in the worker thread it steps on itself, thread tracking is best in main loop
         SPAWNED=$[$SPAWNED+1]
         (flock -x -w 10 201
            status
         )201>/tmp/$ME.lock
         sleep $TPS
        if ((! $[$SPAWNED%100]));then
           #rethink thread timing every 100 threads
           threadspeed
        fi
      done
      sleep $TPS
   done

   while [ "$(threadcount)" -gt 0 ]
   do
      (flock -x -w 10 201
         status
      )201>/tmp/$ME.lock
      sleep 1;
   done

   status
}

clear
threadspeed
main
wait
status
echo

If you want to be able to easily run and kill multiple process with ctrl-c, this is my favorite method: spawn multiple background processes in a (…) subshell, and trap SIGINT to execute kill 0, which will kill everything spawned in the subshell group:

(trap 'kill 0' SIGINT; prog1 & prog2 & prog3)

You can have complex process execution structures, and everything will close with a single ctrl-c (just make sure the last process is run in the foreground):

(trap 'kill 0' SIGINT; prog1.1 && prog1.2 & (prog2.1 | prog2.2 || prog2.3) & prog 1.3)

With bashj ( https://sourceforge.net/projects/bashj/ ) , you should be able to run not only multiple processes (the way others suggested) but also multiple Threads in one JVM controlled from your script. But of course this requires a java JDK. Threads consume less resource than processes.

Here is a working code:

#!/usr/bin/bashj

#!java

public static int cnt=0;

private static void loop() {u.p("java says cnt= "+(cnt++));u.sleep(1.0);}

public static void startThread()
{(new Thread(() ->  {while (true) {loop();}})).start();}

#!bashj

j.startThread()

while [ j.cnt -lt 4 ]
do
  echo "bash views cnt=" j.cnt
  sleep 0.5
done

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