The output of
free -m is:
total used free shared buffers cached Mem: 595 482 112 0 63 324 -/+ buffers/cache: 93 501 swap: 0 0 0
Which value of used memory is correct, 482 or 93?
You have 112 MB of completely free memory, BUT the 501 mb you see is without 'cached' memory. This means that the OS has put some stuff in your memory to be quicker. It calls this "used" (therefore your 'free' number is only 112), but it is actually available for you if you need it.
This is a good thing, because unused memory is useless memory. The cached memory can be cleared if needed. The old "I need to clean up memory" stuff people used to do for windows 95 isn't needed here: it's all fine and happy :)
The number you are looking for is 501 free (in megabytes because of
see for reference these pages:
Interpretting output of
The first line of the
free output lists:
totalYour total, physical (assuming no virtualization) memory
usedHow much of that is currently used (by anything)
freeHow much of that is completely free (not used at all)
shared(never anything there, ignore that column)
buffersMemory used by kernel buffers
cachedMemory used for cache
The last two items, cache and buffers, is memory that is not allocated to specific user processes. It is memory reserved by the kernel to improve performance overall, but is not "application" memory. These areas will grow or shrink depending on kernel policies with respect to caching, memory pressure, application I/O patterns, etc.
Since these two columns are not user-allocated memory, and the zones can shrink (practically to zero) if user allocations require it, they are in a sense "free" - there's RAM there that can be freed up by the kernel if your apps actively need it.
That's what the second line tells you. It removes the buffer and cache memory from the
used column (that's what the
- means), and adds (
+) them to the
free column. (Rounding issue will happen.)
(The last line shows the state of your swap space.)
So, in your case 112MB is the completely free memory, and if you take into consideration the memory used for caching, which can be allocated to the user applications, if needed; then 501 MB is the actual maximum memory available for use.
The answer by @saji89 is excellent, but these days
free -m no longer prints the
-/+ buffers/cache line, but instead puts the amount of available RAM in a new
available column on the first line, for example:
ubuntu@pg_master:~$ free -m total used free shared buff/cache available Mem: 61406 1571 506 17131 59328 42150 Swap: 0 0 0 ubuntu@pg_master:~$ free -V free from procps-ng 3.3.10
free command shows the information about unused and used memory and swap space.
Below is the explanation provided by http://www.linfo.org/free.html
The first row, labeled Mem, displays physical memory utilization, including the amount of memory allocated to buffers and caches. A buffer, also called buffer memory, is usually defined as a portion of memory that is set aside as a temporary holding place for data that is being sent to or received from an external device, such as a HDD, keyboard, printer or network.
The second line of data, which begins with -/+ buffers/cache, shows the amount of physical memory currently devoted to system buffer cache. This is particularly meaningful with regard to application programs, as all data accessed from files on the system that are performed through the use of read() and write() system calls1 pass through this cache. This cache can greatly speed up access to data by reducing or eliminating the need to read from or write to the HDD or other disk.
The third row, which begins with Swap, shows the total swap space as well as how much of it is currently in use and how much is still available.
Lets analyse the your system's memory usage
You have used
free command with '-m' option, which is used to display the result in megabytes
-m, --mega Display the amount of memory in megabytes.
Total memory is 595(Used+free)
Used: 482 Free: 112
482MB out of 595MB is used by your system, in which only 93MB is used by active programs and remaining 324MB are in cache
So when you run any program in future, say which requires more 120MB. All 112MB(currently free) will be given and remaining 8MB will be taken from the non-active program buffer/cache.
Edit: Found this link, which provides good explanation.