Adaptive Replacement Cache (ARC) is a
page replacement algorithm
In a computer operating system that uses paging for virtual memory management, page replacement algorithms decide which memory pages to page out, sometimes called swap out, or write to disk, when a page of memory needs to be allocated. Page re ...
with
better performance than
LRU (least recently used). This is accomplished by keeping track of both frequently used and recently used pages plus a recent eviction history for both. The algorithm was developed at the IBM
Almaden Research Center. In 2006, IBM was granted
patent for the adaptive replacement cache policy
Summary
Basic LRU maintains an ordered list (the cache directory) of resource entries in the cache, with the sort order based on the time of most recent access. New entries are added at the top of the list, after the bottom entry has been evicted. Cache hits move to the top, pushing all other entries down.
ARC improves the basic LRU strategy by splitting the cache directory into two lists, T1 and T2, for recently and frequently referenced entries. In turn, each of these is extended with a ''ghost'' list (B1 or B2), which is attached to the bottom of the two lists. These ''ghost'' lists act as scorecards by keeping track of the history of recently evicted cache entries, and the algorithm uses ''ghost'' hits to adapt to recent change in resource usage. Note that the ''ghost'' lists only contain metadata (keys for the entries) and not the resource data itself, i.e. as an entry is evicted into a ''ghost'' list its data is discarded. The combined cache directory is organised in four LRU lists:
# T1, for recent cache entries.
# T2, for frequent entries, referenced at least twice.
# B1, ''ghost'' entries recently evicted from the T1 cache, but are still tracked.
# B2, similar ''ghost'' entries, but evicted from T2.
T1 and B1 together are referred to as L1, a combined history of recent single references.
Similarly, L2 is the combination of T2 and B2.
The whole cache directory can be visualised in a single line:
. . .
'' B1 <-[ T1 <-!-> T2 ''-> B2 ">''_____T1____<-!->______T2___.html" ;"title="'' B1 <-[ T1 <-!-> T2 ">'' B1 <-[ T1 <-!-> T2 ''-> B2 '' . .
[ . . . . [ . . . . . . ! . .^. . . . ] . . . . ]
[ fixed cache size (c) ]
The inner [ ] brackets indicate actual cache, which although fixed in size, can move freely across the B1 and B2 history.
L1 is now displayed from right to left, starting at the top, indicated by the ! marker. ^ indicates the target size for T1, and may be equal to, smaller than, or larger than the actual size (as indicated by !).
* New entries enter T1, to the left of !, and are gradually pushed to the left, eventually being evicted from T1 into B1, and finally dropped out altogether.
* Any entry in L1 that gets referenced once more, gets another chance, and enters L2, just to the right of the central ! marker. From there, it is again pushed outward, from T2 into B2. Entries in L2 that get another hit can repeat this indefinitely, until they finally drop out on the far right of B2.
Replacement
Entries (re-)entering the cache (T1, T2) will cause ! to move towards the target marker ^. If no free space exists in the cache, this marker also determines whether either T1 or T2 will evict an entry.
* Hits in B1 will increase the size of T1, pushing ^ to the right. The last entry in T2 is evicted into B2.
* Hits in B2 will shrink T1, pushing ^ back to the left. The last entry in T1 is now evicted into B1.
* A cache miss will not affect ^, but the ! boundary will move closer to ^.
Deployment
ARC is currently deployed in IBM's DS6000/
DS8000 storage controllers.
Sun Microsystems
Sun Microsystems, Inc. (Sun for short) was an American technology company that sold computers, computer components, software, and information technology services and created the Java programming language, the Solaris operating system, ZFS, ...
's scalable file system
ZFS uses a variant of ARC as an alternative to the traditional
Solaris filesystem page cache in virtual memory. It has been modified to allow for locked pages that are currently in use and cannot be vacated.
PostgreSQL
PostgreSQL (, ), also known as Postgres, is a free and open-source relational database management system (RDBMS) emphasizing extensibility and SQL compliance. It was originally named POSTGRES, referring to its origins as a successor to the In ...
used ARC in its buffer manager for a brief time (version 8.0.0), but quickly replaced it with another algorithm,
citing concerns over an IBM patent on ARC.
VMware
VMware, Inc. is an American cloud computing and virtualization technology company with headquarters in Palo Alto, California. VMware was the first commercially successful company to virtualize the x86 architecture.
VMware's desktop software ru ...
's vSAN (formerly Virtual SAN) is a hyper-converged, software-defined storage (SDS) product developed by VMware. It uses A variant of ARC in its Caching Algorithm.
OpenZFS supports using ARC and L2ARC in a
multi-level cache as read caches.
In OpenZFS, disk reads often hit the first level disk cache in RAM using ARC.
If a SSD is set up to store the second level disk cache, it is called an L2ARC. L2ARC uses the same ARC algorithm, but instead of storing the cached data in RAM, L2ARC stores the cached data in a fast SSD.
[
Ranvir Singh]
"Adaptive Replacement Cache (ARC) and L2ARC"
See also
*
Clock with Adaptive Replacement
In a computer operating system that uses paging for virtual memory management, page replacement algorithms decide which memory pages to page out, sometimes called swap out, or write to disk, when a page of memory needs to be allocated. Page ...
*
LIRS caching algorithm
LIRS (Low Inter-reference Recency Set) is a page replacement algorithm with an improved performance over cache algorithms#Least Recently Used, LRU (Least Recently Used) and many other newer replacement algorithms. This is achieved by using "reuse d ...
References
External links
ARC: A Self-Tuning, Low Overhead Replacement Cache (2003) by Nimrod Megiddo, Dharmendra ModhaLinux Memory Management Wiki
*Bourbonnais, Roch
ZFS DynamicsPython implementation, recipe 576532Comparison of LRU, ARC and others
Memory management algorithms
Virtual memory