I want to create a near 100% load on a Linux machine. It's quad core system and I want all cores going full speed. Ideally, the CPU load would last a designated amount of time and then stop. I'm hoping there's some trick in bash. I'm thinking some sort of infinite loop.


26 Answers 26


I use stress for this kind of thing, you can tell it how many cores to max out.. it allows for stressing memory and disk as well.

Example to stress 2 cores for 60 seconds

stress --cpu 2 --timeout 60

  • 7
    On Fedora, sudo yum install stress Commented Nov 13, 2014 at 22:16
  • 3
    You need to EPEL repo for CentOS wget http://dl.fedoraproject.org/pub/epel/6/x86_64/epel-release-6-8.noarch.rpm
    – Satish
    Commented Dec 16, 2014 at 17:50
  • 6
    brew install stress on OS X. Also for some reason I had to specify 8 cores on a quad-core MBPr
    – fregante
    Commented Mar 8, 2015 at 14:28
  • 2
    @bfred.it Your cores may utilize hyperthreading, effectively doubling your amount of cores (4 physical and 4 virtual cores). You'll also want to stress the virtual ones for a full load test.
    – Mast
    Commented May 21, 2015 at 11:53
  • 6
    sudo apt-get install stress on debian based systems, for completeness. Used this to test a cooling mod on the Intel i7 NUC Kit.
    – onmylemon
    Commented Nov 26, 2015 at 13:30

You can also do

dd if=/dev/zero of=/dev/null

To run more of those to put load on more cores, try to fork it:

fulload() { dd if=/dev/zero of=/dev/null | dd if=/dev/zero of=/dev/null | dd if=/dev/zero of=/dev/null | dd if=/dev/zero of=/dev/null & }; fulload; read; killall dd

Repeat the command in the curly brackets as many times as the number of threads you want to produce (here 4 threads). Simple enter hit will stop it (just make sure no other dd is running on this user or you kill it too).

  • 42
    dd deals more with I/O than with CPU usage
    – Fred
    Commented May 28, 2010 at 18:06
  • 2
    This actually worked the best for my situation. It also worked in Cygwin. For some reason, the other solutions wouldn't quite spike the CPU. Adding a count and making four processes in parallel worked perfectly. It spiked the CPU at 100% in top and then back down to zero without any help. Just four lines of code and a "wait".
    – User1
    Commented May 28, 2010 at 22:30
  • 77
    Reading from /dev/zero and writing to /dev/null is not a very good load generator - you have to run a lot of them to generate significant load. Better to do something like dd if=/dev/urandom | bzip2 -9 >> /dev/null. /dev/urandom requires significantly more effort to generate output, and bzip2 will expend a lot of effort trying to compress it, so the overall CPU usage is a lot higher than "fill a block with zeros, and then throw it away".
    – twalberg
    Commented Sep 10, 2013 at 15:46
  • 6
    Use jobs -p | xargs kill to only kill the processes you have created.
    – Marian
    Commented Feb 10, 2015 at 15:33
  • 6
    @twalberg, you should make your comment into an answer. Commented Jul 28, 2015 at 9:55

I think this one is simpler. Open Terminal and type the following and press Enter.

yes > /dev/null &

To fully utilize modern CPUs, one line is not enough, you may need to repeat the command to exhaust all the CPU power.

To end all of this, simply put

killall yes

The idea was originally found here, although it was intended for Mac users, but this should work for *nix as well.

  • 9
    +1 Works like a charm, thank you! Worth adding: this command will max out one hyperthread per cpu core. So a dual core cpu (each core having 2 threads) will get a total load of 25% per yes command (assuming the system was otherwise idle).
    – GitaarLAB
    Commented Jan 13, 2014 at 5:13
  • Just to add to this, Each iteration of this command adds 25 percent load on the CPU (Android) up to 4 iterations and the rest have no effect (even in terms of clock rate). Commented Mar 16, 2017 at 11:00
  • If you have multiple terminal sessions or tmux tabs, it's simple to run yes > /dev/null, then CTRL+C it when you're done
    – Carl Walsh
    Commented Jan 30, 2023 at 16:42
  • Note that, if you are looking to push as many Watts as possible through the CPU, this command may not be enough. Use the "stress" command instead. I thought there was something wrong with my machine because I was seeing only 12 W (despite 100% CPU load), but "stress" gives me the full 15 W I expected. (i7-6500U)
    – sp00n
    Commented Mar 8 at 14:08
  • Addendum: actually, the best solution (power-wise) seems to be the "for loop" by Marian. I even reach 16 W by running it twice in parallel.
    – sp00n
    Commented Mar 8 at 14:19

Although I'm late to the party, this post is among the top results in the google search "generate load in linux".

The result marked as solution could be used to generate a system load, i'm preferring to use sha1sum /dev/zero to impose a load on a cpu-core.

The idea is to calculate a hash sum from an infinite datastream (eg. /dev/zero, /dev/urandom, ...) this process will try to max out a cpu-core until the process is aborted. To generate a load for more cores, multiple commands can be piped together.

eg. generate a 2 core load: sha1sum /dev/zero | sha1sum /dev/zero

  • 1
    Seeing, this to be better than dd for CPU load. I get max cpu load of 44% on dd (6 times) and 86%+ on sha1sum . Thx~!
    – AAI
    Commented Apr 3, 2018 at 20:37
  • @Mitms why do you prefer this solution ? How is this better than the other solutions already in other answers existing before yours that you believed warranted adding this answer ? This would be a lot more insightful for people to explain why you "prefer" this solution than to simply saying that you do.
    – adamency
    Commented Jun 22 at 13:14
  • This is the answer! Would give +2 because it requires no installation, i.e. also works on a minimal busybox system. @adamency He does explain it: The result marked as solution could be used to generate a system load. I.e. dd does file I/O mainly instead of stressing your CPU core.
    – Mo_
    Commented 2 days ago

To load 3 cores for 5 seconds:

seq 3 | xargs -P0 -n1 timeout 5 yes > /dev/null

This results in high kernel (sys) load from the many write() system calls.

If you prefer mostly userland cpu load:

seq 3 | xargs -P0 -n1 timeout 5 md5sum /dev/zero

If you just want the load to continue until you press Ctrl-C:

seq 3 | xargs -P0 -n1 md5sum /dev/zero
  • 1
    Is this possible from tinycore? xargs: invalid option -- 'P' Commented Aug 29, 2017 at 22:58
  • nice native option
    – insign
    Commented May 4, 2020 at 22:35
  • for some reason this command timeout 5 md5sum /dev/zero always returns an exit code of 124, which causes issues with scripts that have strict exit codes enabled. Commented Apr 17, 2021 at 15:03

One core (doesn't invoke external process):

while true; do true; done

Two cores:

while true; do /bin/true; done

The latter only makes both of mine go to ~50% though...

This one will make both go to 100%:

while true; do echo; done
  • on echo, we loose the access to linux. how to put that 3rd command in background ?
    – AAI
    Commented Apr 3, 2018 at 20:26
  • 2
    Why does echo make all cpu cores to 100%?
    – Haoyuan Ge
    Commented Apr 18, 2018 at 3:16
  • @HaoyuanGe All the cpus are 100% only when echoing "nothing". Replace the do echo; with do echo "some very very long string"; to see <100% on the cpus. So, I believe, echoing nothing has lot less jumps and hence more code to execute (because of while true;) the cores are ~100% busy Commented Feb 4, 2019 at 8:52
  • If you want to keep a server responsive whilst running such a test, do it in a separate shell (another tmux/screen window, or ssh session), and renice that shell first, e.g. in bash: renice 19 -p $$. It'll still max the CPUs, but won't impinge on other processes.
    – Walf
    Commented Feb 7, 2019 at 5:27
  • this code while true; do /bin/true; done good but When one I add that the CPU speed increases while true; do /bin/true & echo "b"; done
    – Netwons
    Commented Feb 1, 2022 at 7:01

An infinite loop is the idea I also had. A freaky-looking one is:

while :; do :; done

(: is the same as true, does nothing and exits with zero)

You can call that in a subshell and run in the background. Doing that $num_cores times should be enough. After sleeping the desired time you can kill them all, you get the PIDs with jobs -p (hint: xargs)

  • Very nice. Minimalistic and pure bash. Loads cpu nicely.
    – spechter
    Commented May 5, 2023 at 10:52

Here is a program that you can download Here

Install easily on your Linux system

make install

and launch it in a simple command line

stress -c 40

to stress all your CPUs (however you have) with 40 threads each running a complex sqrt computation on a ramdomly generated numbers.

You can even define the timeout of the program

stress -c 40 -timeout 10s

unlike the proposed solution with the dd command, which deals essentially with IO and therefore doesn't really overload your system because working with data.

The stress program really overloads the system because dealing with computation.

  • 4
    There is already an answer above for the stress command. As that answer says, you can just install it via yum/apt/etc. Commented Jul 22, 2015 at 15:51
  • 1
    Website not in good condition (503 Forbidden) but is available on the repos :)
    – m3nda
    Commented Aug 1, 2015 at 6:48
:(){ :|:& };:

This fork bomb will cause havoc to the CPU and will likely crash your computer.

  • 20
    It'll help if I make it easier to read fork_bomb() { fork_bomb | fork_bomb & }; forkbomb Commented May 27, 2010 at 23:16
  • 19
    That one fails on the "last a designated amount of time and then stop" criterion ;)
    – Marian
    Commented May 27, 2010 at 23:26
  • 14
    looks like a bunch of smiley faces. Commented May 28, 2010 at 1:07
  • 3
    This fork bomb crashed my computer, I had to do a hard power cycle. Commented Feb 13, 2014 at 14:11
  • 3
    From: cyberciti.biz/faq/understanding-bash-fork-bomb WARNING! These examples may crash your computer if executed. "Once a successful fork bomb has been activated in a system it may not be possible to resume normal operation without rebooting the system as the only solution to a fork bomb is to destroy all instances of it." Commented Feb 13, 2014 at 14:17

I would split the thing in 2 scripts :

infinite_loop.bash :

while [ 1 ] ; do
    # Force some computation even if it is useless to actually work the CPU
    echo $((13**99)) 1>/dev/null 2>&1

cpu_spike.bash :

# Either use environment variables for NUM_CPU and DURATION, or define them here
for i in `seq ${NUM_CPU}` : do
    # Put an infinite loop on each CPU
    infinite_loop.bash &

# Wait DURATION seconds then stop the loops and quit
sleep ${DURATION}
killall infinite_loop.bash

to increase load or consume CPU 100% or X%

sha1sum /dev/zero &

on some system this will increase the load in slots of X%, in that case you have to run the same command multiple time.

then you can see CPU uses by typing command


to release the load

killall sha1sum
cat /dev/urandom > /dev/null
  • Add some comment as well, it helps.
    – Lokesh
    Commented Nov 14, 2013 at 17:04

If you do not want to install additional software, you may use a compression utility which utilizes all CPU cores automatically. For example, xz:

 cat /dev/zero | xz -T0 > /dev/null

This takes infinite stream of dummy data from /dev/zero and compresses it using all cores available in the system.

  • would sourcing input from /dev/urandom be better? Commented Jun 19 at 7:53
duration=120    # seconds
instances=4     # cpus
endtime=$(($(date +%s) + $duration))
for ((i=0; i<instances; i++))
    while (($(date +%s) < $endtime)); do :; done &

I've used bc (binary calculator), asking them for PI with a big lot of decimals.

$ for ((i=0;i<$NUMCPU;i++));do
    echo 'scale=100000;pi=4*a(1);0' | bc -l &
    done ;\
    sleep 4; \
    killall bc

with NUMCPU (under Linux):

$ NUMCPU=$(grep $'^processor\t*:' /proc/cpuinfo |wc -l)

This method is strong but seem system friendly, as I've never crashed a system using this.

while [ 1 ]
        #Your code goes here
  • 1
    Eh, no. Sleeping is not that kind of task that puts lots of laod on the cpu :-)
    – Marian
    Commented May 27, 2010 at 23:06

You can try to test the performance of cryptographic algorithms.

openssl speed -multi 4

I went through the Internet to find something like it and found this very handy cpu hammer script.


# unixfoo.blogspot.com

if [ $1 ]; then

for i in `seq 0 $((NUM_PROC-1))`; do
    awk 'BEGIN {for(i=0;i<10000;i++)for(j=0;j<10000;j++);}' &
  • Does it really need to be that long ? I like one-liners best for this kind of task… Commented Oct 26, 2012 at 7:27
  • 1
    The if-then-else clause can be replaced by: NUM_PROC=${1:-10}.
    – Thor
    Commented Feb 10, 2015 at 13:03

Using examples mentioned here, but also help from IRC, I developed my own CPU stress testing script. It uses a subshell per thread and the endless loop technique. You can also specify the number of threads and the amount of time interactively.

# Simple CPU stress test script

# Read the user's input
echo -n "Number of CPU threads to test: "
read cpu_threads
echo -n "Duration of the test (in seconds): "
read cpu_time

# Run an endless loop on each thread to generate 100% CPU
echo -e "\E[32mStressing ${cpu_threads} threads for ${cpu_time} seconds...\E[37m"
for i in $(seq ${cpu_threads}); do
    let thread=${i}-1
    (taskset -cp ${thread} $BASHPID; while true; do true; done) &

# Once the time runs out, kill all of the loops
sleep ${cpu_time}
echo -e "\E[32mStressing complete.\E[37m"
kill 0
  • getting error "line 14: taskset: command not found" on your script! any idea? Commented Oct 25, 2014 at 0:46

Utilizing ideas here, created code which exits automatically after a set duration, don't have to kill processes --

echo "Usage : ./killproc_ds.sh 6 60  (6 threads for 60 secs)"

# Define variables
NUM_PROCS=${1:-6} #How much scaling you want to do
duration=${2:-20}    # seconds

function infinite_loop {
endtime=$(($(date +%s) + $duration))
while (($(date +%s) < $endtime)); do
    #echo $(date +%s)
    echo $((13**99)) 1>/dev/null 2>&1
    $(dd if=/dev/urandom count=10000 status=none| bzip2 -9 >> /dev/null) 2>&1 >&/dev/null
echo "Done Stressing the system - for thread $1"

echo Running for duration $duration secs, spawning $NUM_PROCS threads in background
for i in `seq ${NUM_PROCS}` ;
# Put an infinite loop
    infinite_loop $i  &

This does a trick for me:

bash -c 'for (( I=100000000000000000000 ; I>=0 ; I++ )) ; do echo $(( I+I*I )) & echo $(( I*I-I )) & echo $(( I-I*I*I )) & echo $(( I+I*I*I )) ; done' &>/dev/null

and it uses nothing except bash.


To enhance dimba's answer and provide something more pluggable (because i needed something similar). I have written the following using the dd load-up concept :D

It will check current cores, and create that many dd threads. Start and End core load with Enter


load_dd() {
    dd if=/dev/zero of=/dev/null

fulload() {
    export cores="$(grep proc /proc/cpuinfo -c)"
    for i in $( seq 1 $( expr $cores - 1 ) )
    export LOAD_ME_UP_SCOTTY="${LOAD_ME_UP_SCOTTY}$(echo 'load_dd | ')"
        export LOAD_ME_UP_SCOTTY="${LOAD_ME_UP_SCOTTY}$(echo 'load_dd &')"
    eval ${LOAD_ME_UP_SCOTTY}

echo press return to begin and stop fullload of cores
  killall -9 dd

Dimba's dd if=/dev/zero of=/dev/null is definitely correct, but also worth mentioning is verifying maxing the cpu to 100% usage. You can do this with

ps -axro pcpu | awk '{sum+=$1} END {print sum}'

This asks for ps output of a 1-minute average of the cpu usage by each process, then sums them with awk. While it's a 1 minute average, ps is smart enough to know if a process has only been around a few seconds and adjusts the time-window accordingly. Thus you can use this command to immediately see the result.


awk is a good way to write a long-running loop that's CPU bound without generating a lot of memory traffic or system calls, or using any significant amount of memory or polluting caches so it slows down other cores a minimal amount. (stress or stress-ng can also do that if you either installed, if you use a simple CPU-stress method.)

awk 'BEGIN{for(i=0;i<100000000;i++){}}'   # about 3 seconds on 4GHz Skylake

It's a counted loop so you can make it exit on its own after a finite amount of time. (Awk uses FP numbers, so a limit like 2^54 might not be reachable with i++ due to rounding, but that's way larger than needed for a few seconds to minutes.)

To run it in parallel, use a shell loop to start it in the background n times

for i in {1..6};do awk 'BEGIN{for(i=0;i<100000000;i++){}}' & done

######     6 threads                      each running about 3 seconds
$ for i in {1..6};do awk 'BEGIN{for(i=0;i<100000000;i++){}}' & done
[1] 3047561
[2] 3047562
[3] 3047563
[4] 3047564
[5] 3047565
[6] 3047566
$              # this shell is usable.
(wait a while before pressing return)
[1]   Done                    awk 'BEGIN{for(i=0;i<100000000;i++){}}'
[2]   Done                    awk 'BEGIN{for(i=0;i<100000000;i++){}}'
[3]   Done                    awk 'BEGIN{for(i=0;i<100000000;i++){}}'
[4]   Done                    awk 'BEGIN{for(i=0;i<100000000;i++){}}'
[5]-  Done                    awk 'BEGIN{for(i=0;i<100000000;i++){}}'
[6]+  Done                    awk 'BEGIN{for(i=0;i<100000000;i++){}}'

I used perf to see what kind of load it put on the CPU: it runs 2.6 instructions per clock cycle, so it's not the most friendly to a hyperthread sharing the same physical core. But it has a very small cache footprint, getting negligible cache misses even in L1d cache. And strace will show it makes no system calls until exit.

$ perf stat -r5 -d awk 'BEGIN{for(i=0;i<100000000;i++){}}'

 Performance counter stats for 'awk BEGIN{for(i=0;i<100000000;i++){}}' (5 runs):

          3,277.56 msec task-clock                #    0.997 CPUs utilized            ( +-  0.24% )
                 7      context-switches          #    2.130 /sec                     ( +- 12.29% )
                 1      cpu-migrations            #    0.304 /sec                     ( +- 40.00% )
               180      page-faults               #   54.765 /sec                     ( +-  0.18% )
    13,708,412,234      cycles                    #    4.171 GHz                      ( +-  0.18% )  (62.29%)
    35,786,486,833      instructions              #    2.61  insn per cycle           ( +-  0.03% )  (74.92%)
     9,696,339,695      branches                  #    2.950 G/sec                    ( +-  0.02% )  (74.99%)
           340,155      branch-misses             #    0.00% of all branches          ( +-122.42% )  (75.08%)
    12,108,293,527      L1-dcache-loads           #    3.684 G/sec                    ( +-  0.04% )  (75.10%)
           217,064      L1-dcache-load-misses     #    0.00% of all L1-dcache accesses  ( +- 17.23% )  (75.10%)
            48,695      LLC-loads                 #   14.816 K/sec                    ( +- 31.69% )  (49.90%)
             5,966      LLC-load-misses           #   13.45% of all LL-cache accesses  ( +- 31.45% )  (49.81%)

           3.28711 +- 0.00772 seconds time elapsed  ( +-  0.23% )

The most "friendly" to the other hyperthread on an x86 CPU would be a C program like this, which just runs a pause instruction in a loop. (Or portably, a Rust program that runs std::hint::spin_loop.) As far as the OS's process scheduler, it stays in user-space (nothing like a yield() system call), but in hardware it doesn't take up many resources, letting the other logical core have the front-end for multiple cycles.

#include <immintrin.h>
int main(){                    // use atoi(argv[1])*10000ULL as a loop count if you want.
    while(1) _mm_pause();

I combined some of the answers and added a way to scale the stress to all available cpus:


function infinite_loop { 
    while [ 1 ] ; do
        # Force some computation even if it is useless to actually work the CPU
        echo $((13**99)) 1>/dev/null 2>&1

# Either use environment variables for DURATION, or define them here
NUM_CPU=$(grep -c ^processor /proc/cpuinfo 2>/dev/null || sysctl -n hw.ncpu)
for i in `seq ${NUM_CPU}` ;
# Put an infinite loop on each CPU
    infinite_loop &

# Wait DURATION seconds then stop the loops and quit
sleep ${DURATION}

# Parent kills its children 
for pid in "${PIDS[@]}"
    kill $pid

Just paste this bad boy into the SSH or console of any server running linux. You can kill the processes manually, but I just shutdown the server when I'm done, quicker.

Edit: I have updated this script to now have a timer feature so that there is no need to kill the processes.

read -p "Please enter the number of minutes for test >" MINTEST && [[ $MINTEST == ?(-)+([0-9]) ]]; NCPU="$(grep -c ^processor /proc/cpuinfo)";  ((endtime=$(date +%s) + ($MINTEST*60))); NCPU=$((NCPU-1)); for ((i=1; i<=$NCPU; i++)); do while (($(date +%s) < $endtime)); do : ; done & done

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