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To me it's not clear what's the difference between the two Linux memory concept :buffer and cache. I've read through this post and it seems to me that the difference between them is the expiration policy:

  1. buffer's policy is first-in, first-out
  2. cache's policy is Least Recently Used.

Am I right?

UPDATE: I am looking at the two commands: free and vmstat

james@utopia:~$ vmstat -S M
procs -----------memory---------- ---swap-- -----io---- -system-- ----cpu----
r  b   swpd   free   buff  cache   si   so    bi    bo   in   cs us sy id wa
5  0      0    173     67    912    0    0    19    59   75 1087 24  4 71  1
james@utopia:~$ free -m
             total       used       free     shared    buffers     cached
Mem:          2007       1834        172          0         67        914
-/+ buffers/cache:        853       1153
Swap:         2859          0       2859
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YOu should give us more context, both terms are used with different meanings. Are you refering to the free command output? –  leonbloy Jun 14 '11 at 15:45
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you are right, i am looking at the two commands: free, vmstat. see my updates. –  James.Xu Jun 14 '11 at 16:00
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You might also visit unix.stackexchange.com –  leonbloy Jun 14 '11 at 18:01

7 Answers 7

up vote 24 down vote accepted

"Buffers" represent how much portion of RAM is dedicated to cache disk block. "Cached" is similar like "Buffers", only this time it caches pages from file reading.

quote from: http://www.linuxforums.org/articles/using-top-more-efficiently_89.html

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I think this page will help understanding the difference between buffer and cache deeply. http://www.tldp.org/LDP/sag/html/buffer-cache.html

Reading from a disk is very slow compared to accessing (real) memory. In addition, it is common to read the same part of a disk several times during relatively short periods of time. For example, one might first read an e-mail message, then read the letter into an editor when replying to it, then make the mail program read it again when copying it to a folder. Or, consider how often the command ls might be run on a system with many users. By reading the information from disk only once and then keeping it in memory until no longer needed, one can speed up all but the first read. This is called disk buffering, and the memory used for the purpose is called the buffer cache.

Since memory is, unfortunately, a finite, nay, scarce resource, the buffer cache usually cannot be big enough (it can't hold all the data one ever wants to use). When the cache fills up, the data that has been unused for the longest time is discarded and the memory thus freed is used for the new data.

Disk buffering works for writes as well. On the one hand, data that is written is often soon read again (e.g., a source code file is saved to a file, then read by the compiler), so putting data that is written in the cache is a good idea. On the other hand, by only putting the data into the cache, not writing it to disk at once, the program that writes runs quicker. The writes can then be done in the background, without slowing down the other programs.

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Cited answer (for reference):

Short answer: Cached is the size of the page cache. Buffers is the size of in-memory block I/O buffers. Cached matters; Buffers is largely irrelevant.

Long answer: Cached is the size of the Linux page cache, minus the memory in the swap cache, which is represented by SwapCached (thus the total page cache size is Cached + SwapCached). Linux performs all file I/O through the page cache. Writes are implemented as simply marking as dirty the corresponding pages in the page cache; the flusher threads then periodically write back to disk any dirty pages. Reads are implemented by returning the data from the page cache; if the data is not yet in the cache, it is first populated. On a modern Linux system, Cached can easily be several gigabytes. It will shrink only in response to memory pressure. The system will purge the page cache along with swapping data out to disk to make available more memory as needed.

Buffers are in-memory block I/O buffers. They are relatively short-lived. Prior to Linux kernel version 2.4, Linux had separate page and buffer caches. Since 2.4, the page and buffer cache are unified and Buffers is raw disk blocks not represented in the page cache—i.e., not file data. The Buffers metric is thus of minimal importance. On most systems, Buffers is often only tens of megabytes.

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It's not 'quite' as simple as this, but it might help understand:

Buffer is for storing file metadata (permissions, location, etc). Every memory page is kept track of here.

Cache is for storing actual file contents.

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IOW, Buffer = Metadata; Cache = Data; –  Freedom_Ben May 14 at 21:17

Buffers are associated with a specific block device, and cover caching of filesystem metadata as well as tracking in-flight pages. The cache only contains parked file data. That is, the buffers remember what's in directories, what file permissions are, and keep track of what memory is being written from or read to for a particular block device. The cache only contains the contents of the files themselves.

quote link

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buffer and cache.

A buffer is something that has yet to be "written" to disk.

A cache is something that has been "read" from the disk and stored for later use.

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new user tip: make your answer as clearly relate to the question as possible. If I were you, I'd add to your answer a section starting with "So, with your example..." and elaborate a little on that. –  Piotr Wadas Sep 18 '12 at 0:17
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I don't think this answer is true in the same context as that of the question (namely, what the Linux kernel means by "buffer" and "cache" –  Freedom_Ben May 14 at 21:13

A buffer is a region of memory used to temporarily hold data while it is being moved from one place to another within a computer.while a cache is a temporary storage area where frequently accessed data can be stored for rapid access. Once the data is stored in the cache, future use can be made by accessing the cached copy rather than re-fetching the original data, so that the average access time is shorter.

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