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This question is covered here in great detail.

How do you measure the memory usage of an application or process in Linux?

From the blog article of Understanding memory usage on Linux, "ps" is not an accurate tool to use for this intent.

Why ps is "wrong"

Depending on how you look at it, ps is not reporting the real memory usage of processes. What it is really doing is showing how much real memory each process would take up if it were the only process running. Of course, a typical Linux machine has several dozen processes running at any given time, which means that the VSZ and RSS numbers reported by ps are almost definitely "wrong".

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This question probably belongs on instead nowadays, although it's telling me it's "too old to migrate". Don't actually want to close it though... – thomasrutter Dec 21 '12 at 0:11
Refer to this question.… – Bloodmoon Jul 22 '13 at 15:57
Actually ps doesn't show even that -- it shows virtual and resident memory numbers, where virtual is maximum amount of memory the process could theoretically use it it were the only process (never so), used every single page it allocated (never happens) and didn't map or unmap any pages (unlikely). While resident shows how much virtual memory is mapped to physical right now. Typically virt > usage > res however on a 64-bit system virt ~= res*10 it's a very wide range. – qarma Dec 14 '15 at 8:55

27 Answers 27

up vote 214 down vote accepted

With ps or similar tools you will only get the amount of memory pages allocated by that process. This number is correct, but:

  • does not reflect the actual amount of memory used by the application, only the amount of memory reserved for it

  • can be misleading if pages are shared, for example by several threads or by using dynamically linked libraries

If you really want to know what amount of memory your application actually uses, you need to run it within a profiler. For example, valgrind can give you insights about the amount of memory used, and, more importantly, about possible memory leaks in your program.

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To interpret the results generated by valgrind, I can recommend alleyoop. It isn't too fancy, and tells you simply what you need to know to locate sources of leaks. A nice pair of utilities. – Dan Sep 26 '08 at 15:55
Item (a) isn't true. ps shows virtual size as well as resident usage, which is the actually number of page frames used by the process. – siride Sep 16 '10 at 14:16
Item (a) is correct. There is a difference between pages used and memory actually allocated by the application via calls to malloc(), new, etc. The resident usage just shows how much of the paged memory is resident in RAM. – jcoffland Nov 5 '10 at 9:16
This doesn't really tell how to get memory usage using valgrind? – Matt Joiner Mar 11 '11 at 3:17
the default valgrind tool, memcheck, is useful for detecting memory leaks, but its not really a memory profiler. For that, you want valgrind --tool=massif. – Todd Freed Jan 13 '15 at 13:09

Hard to tell for sure, but here are two "close" things that can help.

$ ps aux 

will give you Virtual Size (VSZ)

You can also get detailed stats from /proc file-system by going to /proc/$pid/status

The most important is the VmSize, which should be close to what ps aux gives.

/proc/19420$ cat status
Name:   firefox
State:  S (sleeping)
Tgid:   19420
Pid:    19420
PPid:   1
TracerPid:  0
Uid:    1000    1000    1000    1000
Gid:    1000    1000    1000    1000
FDSize: 256
Groups: 4 6 20 24 25 29 30 44 46 107 109 115 124 1000 
VmPeak:   222956 kB
VmSize:   212520 kB
VmLck:         0 kB
VmHWM:    127912 kB
VmRSS:    118768 kB
VmData:   170180 kB
VmStk:       228 kB
VmExe:        28 kB
VmLib:     35424 kB
VmPTE:       184 kB
Threads:    8
SigQ:   0/16382
SigPnd: 0000000000000000
ShdPnd: 0000000000000000
SigBlk: 0000000000000000
SigIgn: 0000000020001000
SigCgt: 000000018000442f
CapInh: 0000000000000000
CapPrm: 0000000000000000
CapEff: 0000000000000000
Cpus_allowed:   03
Mems_allowed:   1
voluntary_ctxt_switches:    63422
nonvoluntary_ctxt_switches: 7171

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Am I missing something? The question asked how to better measure memory usage by a process, given that VSZ and RSS reported in ps is misleading. Your answer details how to look up the VSZ - the same value that was mentioned as being misleading. – thomasrutter Dec 6 '12 at 12:03
@thomasrutter Yes, you are missing the original question (rev 1), it has been edited several times and is quite old (2008). The original question just asked how to measure the memory usage of a process. Feel free to edit questions and answers, though, if things are outdated. :) – DustinB Jul 31 '14 at 13:04

Try the pmap command:

pmap -x <process pid>
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run with sudo or it gives no error and shows no memory consumed. – Matt Oct 19 '12 at 1:44
Doesn't exist on OSX (for anyone who comes here from google) – jcollum Mar 30 at 15:44

In recent versions of linux, use the smaps subsystem. For example, for a process with a PID of 1234:

cat /proc/1234/smaps

It will tell you exactly how much memory it is using at that time. More importantly, it will divide the memory into private and shared, so you can tell how much memory your instance of the program is using, without including memory shared between multiple instances of the program.

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There is no easy way to calculate this. But some people have tried to get some good answers:

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nice outputs a clean listing of memory and process – Rubytastic Feb 20 '13 at 23:47
Very nice, with quite smart grouping. – Rohmer May 5 '14 at 20:17
Yeap, quite nice indeed. I find ps_mem and smem very useful for end-user measures, while eg. pmap's very detailed output is geared toward devs... allows to retrieve Firefox's Memory usage for each fonts, addons, libs for ex. Thank you all exp. @Bash, @thomasruther. – lliseil Aug 27 '15 at 20:51

Use smem, which is an alternative to ps which calculates the USS and PSS per process. What you want is probably the PSS.

  • USS - Unique Set Size. This is the amount of unshared memory unique to that process (think of it as U for unique memory). It does not include shared memory. Thus this will under-report the amount of memory a process uses, but is helpful when you want to ignore shared memory.

  • PSS - Proportional Set Size. This is what you want. It adds together the unique memory (USS), along with a proportion of its shared memory divided by the number of other processes sharing that memory. Thus it will give you an accurate representation of how much actual physical memory is being used per process - with shared memory truly represented as shared. Think of the P being for physical memory.

How this compares to RSS as reported by ps and other utilties:

  • RSS - Resident Set Size. This is the amount of shared memory plus unshared memory used by each process. If any processes share memory, this will over-report the amount of memory actually used, because the same shared memory will be counted more than once - appearing again in each other process that shares the same memory. Thus it is fairly unreliable, especially when high-memory processes have a lot of forks - which is common in a server, with things like Apache or PHP(fastcgi/FPM) processes.

Notice: smem can also (optionally) output graphs such as pie charts and the like. IMO you don't need any of that. If you just want to use it from the command line like you might use ps -A v, then you don't need to install the python-matplotlib recommended dependency.

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One critical point about RSS is that most applications these days share a lot of code pages. Every shared library (e.g. libc and libstdc++) will be counted for every process using it. And if there are multiple instances of a process running, all of that code will be double-counted. – David C. Nov 7 '14 at 20:19
Precisely, which is why RSS over-reports in term of actual physical memory per process. – thomasrutter Nov 8 '14 at 11:42

This is an excellent summary of the tools and problems: link

I'll quote it, so that more devs will actually read it.

If you want to analyse memory usage of the whole system or to thoroughly analyse memory usage of one application (not just its heap usage), use exmap. For whole system analysis, find processes with the highest effective usage, they take the most memory in practice, find processes with the highest writable usage, they create the most data (and therefore possibly leak or are very ineffective in their data usage). Select such application and analyse its mappings in the second listview. See exmap section for more details. Also use xrestop to check high usage of X resources, especially if the process of the X server takes a lot of memory. See xrestop section for details.

If you want to detect leaks, use valgrind or possibly kmtrace.

If you want to analyse heap (malloc etc.) usage of an application, either run it in memprof or with kmtrace, profile the application and search the function call tree for biggest allocations. See their sections for more details.

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There isn't a single answer for this because you can't pin point precisely the amount of memory a process uses. Most processes under linux use shared libraries. For instance, let's say you want to calculate memory usage for the 'ls' process. Do you count only the memory used by the executable 'ls' ( if you could isolate it) ? How about libc? Or all these other libs that are required to run 'ls'? =>  (0x00ccb000) => /lib/ (0x06bc7000) => /lib/ (0x00230000) => /lib/ (0x00162000) => /lib/ (0x00b40000) => /lib/ (0x00cb4000)
/lib/ (0x00b1d000) => /lib/ (0x00229000) => /lib/ (0x00cae000) => /lib/ (0x0011a000)

You could argue that they are shared by other processes, but 'ls' can't be run on the system without them being loaded.

Also, if you need to know how much memory a process needs in order to do capacity planning, you have to calculate how much each additional copy of the process uses. I think /proc/PID/status might give you enough info of the memory usage AT a single time. On the other hand, valgrind will give you a better profile of the memory usage throughout the lifetime of the program

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If your code is in C or C++ you might be able to use getrusage() which returns you various statistics about memory and time usage of your process.

Not all platforms support this though and will return 0 values for the memory-use options.

Instead you can look at the virtual file created in /proc/[pid]/statm (where [pid] is replaced by your process id. You can obtain this from getprocessid()).

This file will look like a text file with 7 integers. You are probably most interested in the first (all memory use) and sixth (data memory use) numbers in this file.

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Note that this is not supported on all platforms. – CashCow Sep 16 '10 at 14:01
According to the Linux man page (, getrusage is part of the SVr4, 4.3BSD and POSIX.1-2001 specs (noting that POSIX only specifies the utime and stime fields.) I wouldn't expect it to work on non-UNIX platforms (except, perhaps, via an environment like Cygwin that provides UNIX capabilities for other platforms.) – David C. Nov 9 '14 at 19:34

Beside the solutions listed in thy answers, you can use the Linux command "top"; It provides a dynamic real-time view of the running system, it gives the CPU and Memory usage, for the whole system along with for every program, in percentage:


to filter by a program pid:

top -p <PID>

to filter by a program name:

top | grep <PROCESS NAME>

"top" provides also some fields such as:

VIRT -- Virtual Image (kb) :The total amount of virtual memory used by the task

RES -- Resident size (kb): The non-swapped physical memory a task has used ; RES = CODE + DATA.

DATA -- Data+Stack size (kb): The amount of physical memory devoted to other than executable code, also known as the 'data resident set' size or DRS.

SHR -- Shared Mem size (kb): The amount of shared memory used by a task. It simply reflects memory that could be potentially shared with other processes.

Reference here.

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Valgrind can show detailed information but it slows down the target application significantly, and most of the time it changes the behavior of the app.
Exmap was something I didn't know yet, but it seems that you need a kernel module to get the information, which can be an obstacle.

I assume what everyone wants to know WRT "memory usage" is the following...
In linux, the amount of physical memory a single process might use can be roughly divided into following categories.

  • M.a anonymous mapped memory

    • .p private
      • .d dirty == malloc/mmapped heap and stack allocated and written memory
      • .c clean == malloc/mmapped heap and stack memory once allocated, written, then freed, but not reclaimed yet
    • .s shared
      • .d dirty == malloc/mmaped heap could get copy-on-write and shared among processes (edited)
      • .c clean == malloc/mmaped heap could get copy-on-write and shared among processes (edited)
  • M.n named mapped memory

    • .p private
      • .d dirty == file mmapped written memory private
      • .c clean == mapped program/library text private mapped
    • .s shared
      • .d dirty == file mmapped written memory shared
      • .c clean == mapped library text shared mapped

Utility included in Android called showmap is quite useful

virtual                    shared   shared   private  private
size     RSS      PSS      clean    dirty    clean    dirty    object
-------- -------- -------- -------- -------- -------- -------- ------------------------------
       4        0        0        0        0        0        0 0:00 0                  [vsyscall]
       4        4        0        4        0        0        0                         [vdso]
      88       28       28        0        0        4       24                         [stack]
      12       12       12        0        0        0       12 7909                    /lib/
      12        4        4        0        0        0        4 89529                   /usr/lib/locale/en_US.utf8/LC_IDENTIFICATION
      28        0        0        0        0        0        0 86661                   /usr/lib/gconv/gconv-modules.cache
       4        0        0        0        0        0        0 87660                   /usr/lib/locale/en_US.utf8/LC_MEASUREMENT
       4        0        0        0        0        0        0 89528                   /usr/lib/locale/en_US.utf8/LC_TELEPHONE
       4        0        0        0        0        0        0 89527                   /usr/lib/locale/en_US.utf8/LC_ADDRESS
       4        0        0        0        0        0        0 87717                   /usr/lib/locale/en_US.utf8/LC_NAME
       4        0        0        0        0        0        0 87873                   /usr/lib/locale/en_US.utf8/LC_PAPER
       4        0        0        0        0        0        0 13879                   /usr/lib/locale/en_US.utf8/LC_MESSAGES/SYS_LC_MESSAGES
       4        0        0        0        0        0        0 89526                   /usr/lib/locale/en_US.utf8/LC_MONETARY
       4        0        0        0        0        0        0 89525                   /usr/lib/locale/en_US.utf8/LC_TIME
       4        0        0        0        0        0        0 11378                   /usr/lib/locale/en_US.utf8/LC_NUMERIC
    1156        8        8        0        0        4        4 11372                   /usr/lib/locale/en_US.utf8/LC_COLLATE
     252        0        0        0        0        0        0 11321                   /usr/lib/locale/en_US.utf8/LC_CTYPE
     128       52        1       52        0        0        0 7909                    /lib/
    2316       32       11       24        0        0        8 7986                    /lib/
    2064        8        4        4        0        0        4 7947                    /lib/
    3596      472       46      440        0        4       28 7933                    /lib/
    2084        4        0        4        0        0        0 7995                    /lib/
    2152        4        0        4        0        0        0 7993                    /lib/
    2092        0        0        0        0        0        0 8009                    /lib/
    2100        0        0        0        0        0        0 7999                    /lib/
    3752     2736     2736        0        0      864     1872                         [heap]
      24       24       24        0        0        0       24 [anon]
     916      616      131      584        0        0       32                         /bin/bash
-------- -------- -------- -------- -------- -------- -------- ------------------------------
   22816     4004     3005     1116        0      876     2012 TOTAL
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# Returns total memory used by process $1 in kb.
# See /proc/NNNN/smaps if you want to do something
# more interesting.


for line in $(</proc/$1/smaps)
   [[ $line =~ ^Size:\s+(\S+) ]] && ((kb += ${.sh.match[1]}))

print $kb
share|improve this answer
Non standard shell... – Catskul Jun 21 '12 at 14:39
ksh is a standard shell. It might not be installed by default on linux distros for desktop users or for minimalistic purposes, but it's only one command away in almost any unix-/linux OS. (i.e. on all BSDs, on all real UNIX, on RHEL, on SLES, on Debian, on Ubuntu, on OSX) – Florian Heigl Dec 2 '13 at 14:01
This file is accessible, by default, only to root user. – Dmitry Ginzburg Dec 23 '14 at 10:34
Following is just the above rewritten into sed | awk and works in Busybox v1.23.2: sed -n 's/^Size:\s\+\(\S\+\) .*/\1/p' /proc/$1/smaps | awk '{s+=$1} END {print s}' – Ján Sáreník Mar 31 at 10:31

I'm using htop; it's a very good console program similar to Windows Task Manager.

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I used htop and is better than top but still it will show you all the threads from different apps without grouping them making it almost as useless as top. – sorin Feb 20 '15 at 20:08
$ htop -p $(pgrep <your process name> | xargs | tr ' ' ',') – AAAfarmclub Aug 22 '15 at 22:15

Valgrind is amazing if you have the time to run it. valgrind --tool=massif is The Right Solution.

However, I'm starting to run larger examples, and using valgrind is no longer practical. Is there a way to tell the maximum memory usage (modulo page size and shared pages) of a program?

On a real unix system, /usr/bin/time -v works. On Linux, however, this does not work.

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What do you mean by "real Unix system" excluding Linux? What system are you talking about? – esperanto Sep 28 '15 at 11:46
@esperanto Linux is not a UNIX -- it's a "unix like" OS. See – Nikos Ventouras Oct 16 '15 at 16:24

A good test of the more "real world" usage is to open the application, then run vmstat -s and check the "active memory" statistic. Close the application, wait a few seconds and run vmstat -s again. However much active memory was freed was in evidently in use by the app.

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How would this be better than ps?? It comes with all the limitation of ps and is even more inaccurate... – Lester Cheung Feb 28 '13 at 22:36

Get valgrind. give it your program to run, and it'll tell you plenty about its memory usage.

This would apply only for the case of a program that runs for some time and stops. I don't know if valgrind can get its hands on an already-running process or shouldn't-stop processes such as daemons.

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No, it's not possible to "attach" valgrind to a running process. That's by design. – qarma Dec 14 '15 at 8:56

If the process is not using up too much memory (either because you expect this to be the case, or some other command has given this initial indication), and the process can withstand being stopped for a short period of time, you can try to use the gcore command.

gcore <pid>

Check the size of the generated core file to get a good idea how much memory a particular process is using.

This won't work too well if process is using hundreds of megs, or gigs, as the core generation could take several seconds or minutes to be created depending on I/O performance. During the core creation the process is stopped (or "frozen") to prevent memory changes. So be careful.

Also make sure the mount point where the core is generated has plenty of disk space and that the system will not react negatively to the core file being created in that particular directory.

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Below command line will give you the total memory used by the various process running on the Linux machine in MB

ps -eo size,pid,user,command --sort -size | awk '{ hr=$1/1024 ; printf("%13.2f Mb ",hr) } { for ( x=4 ; x<=NF ; x++ ) { printf("%s ",$x) } print "" }' | awk '{total=total + $1} END {print total}'
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It doenst give the correct value – Nayeem Jun 20 '14 at 13:42

If you want something quicker than profiling with Valgrind and your kernel is older and you can't use smaps, a ps with the options to show the resident set of the process (with ps -o rss,command) can give you a quick and reasonable _aproximation_ of the real amount of non-swapped memory being used.

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What about time ?

Not the Bash builtin time but the one you can find with which time, for example /usr/bin/time

Here's what it covers, on a simple ls :

$ /usr/bin/time --verbose ls
Command being timed: "ls"
User time (seconds): 0.00
System time (seconds): 0.00
Percent of CPU this job got: 0%
Elapsed (wall clock) time (h:mm:ss or m:ss): 0:00.00
Average shared text size (kbytes): 0
Average unshared data size (kbytes): 0
Average stack size (kbytes): 0
Average total size (kbytes): 0
Maximum resident set size (kbytes): 2372
Average resident set size (kbytes): 0
Major (requiring I/O) page faults: 1
Minor (reclaiming a frame) page faults: 121
Voluntary context switches: 2
Involuntary context switches: 9
Swaps: 0
File system inputs: 256
File system outputs: 0
Socket messages sent: 0
Socket messages received: 0
Signals delivered: 0
Page size (bytes): 4096
Exit status: 0
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Beautiful solution, thank you! – sleepycal Dec 22 '15 at 11:54

Check shell script to check memory usage by application in linux. Also available on github and in a version without paste and bc.

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Edit: this works 100% well only when memory consumption increases

If you want to monitor memory usage by given process (or group of processed sharing common name, e.g. google-chrome, you can use my bash-script:

while true; do ps aux | awk ‚{print $5, $11}’ | grep chrome | sort -n > /tmp/a.txt; sleep 1; diff /tmp/{b,a}.txt; mv /tmp/{a,b}.txt; done;

this will continously look for changes and print them.

enter image description here

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Another vote for here, but I would like to add that you can use a tool like Alleyoop to help you interpret the results generated by valgrind.

I use the two tools all the time and always have lean, non-leaky code to proudly show for it ;)

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I will rather suggest that you to use atop. You can find everything about it on this page. It is capable of providing all the necessary KPI for your processes, and it can also capture to a file as well.

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While this question seems to be about examining currently running processes, I wanted to see the peak memory used by an application from start to finish. Besides valgrind, you can use tstime, which is much simpler. It measures the "highwater" memory usage (RSS and virtual). From this answer.

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Most applications - that is, those that use malloc() and malloc-like memory libraries - don't return pages to the OS until proess termination. So the amount you see with PS (or any other tool that doesn't dig into the process's heap) will be the high-water mark. – David C. Nov 7 '14 at 20:24

Use the in-built 'system monitor' GUI tool available in ubuntu

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Based on answer to a related question.

You may use SNMP to get the memory and cpu usage of a process in a particular device in network :)


  • the device running the process should have snmp installed and running
  • snmp should be configured to accept requests from where you will run the script below(it may be configured in snmpd.conf)
  • you should know the process id(pid) of the process you want to monitor


  • HOST-RESOURCES-MIB::hrSWRunPerfCPU is the number of centi-seconds of the total system's CPU resources consumed by this process. Note that on a multi-processor system, this value may increment by more than one centi-second in one centi-second of real (wall clock) time.

  • HOST-RESOURCES-MIB::hrSWRunPerfMem is the total amount of real system memory allocated to this process.


Process monitoring script:


echo "IP: "
read ip
echo "specfiy pid: "
read pid
echo "interval in seconds:"
read interval

while [ 1 ]
    snmpget -v2c -c public $ip HOST-RESOURCES-MIB::hrSWRunPerfCPU.$pid
    snmpget -v2c -c public $ip HOST-RESOURCES-MIB::hrSWRunPerfMem.$pid
    sleep $interval;
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