Virtual memory: Difference between revisions

From Citizendium
Jump to navigation Jump to search
imported>Eric M Gearhart
m (cleaned up empty white space)
imported>Eric M Gearhart
(added blurb about 'page faults')
Line 6: Line 6:
== Paging ==
== Paging ==


Most virtual memory systems use a technique called paging. The virtual address space is divided into units called pages, and the corresponding units in physical memory are called page frames. Transfers between main memory and the external paging device are always in units of a page. A virtual address is mapped to a physical address by a Memory Management Unit (MMU)<ref>Andrew S. Tannenbaum. ''Modern Operating Systems''. Prentice-Hall 2001. Page 202-203</ref>.
Most virtual memory systems use a technique called paging. The virtual address space is divided into units called pages, and the corresponding units in physical memory are called page frames. Transfers between main memory and the external paging device are always in units of a page. A virtual address is mapped to a physical address by a Memory Management Unit (MMU)<ref>Andrew S. Tannenbaum. ''Modern Operating Systems''. Prentice-Hall 2001. Page 202-203</ref>. When pages are pulled from swap space back into main memory this is called a 'page fault.'


== References ==
== References ==
<references />
<references />

Revision as of 20:17, 10 November 2007

This article is a stub and thus not approved.
Main Article
Discussion
Related Articles  [?]
Bibliography  [?]
External Links  [?]
Citable Version  [?]
 
This editable Main Article is under development and subject to a disclaimer.

Virtual memory is a concept in computer science that lets a program use more memory than what is physically available for it. The operating system will keep the needed parts of the program's memory in main memory, and put the parts that are not currently used on the disk. The parts on the disk will then be swapped into memory as needed. The concept of virtual memory was first described by Fotheringham in 1961[1].

There are two components in virtual memory. The first part is exactly equal to the amount of real memory, and is physically stored in in real memory. The second part is the space having addresses above the real memory. This part is stored on a external paging device, usually a hard disk.[2].

Paging

Most virtual memory systems use a technique called paging. The virtual address space is divided into units called pages, and the corresponding units in physical memory are called page frames. Transfers between main memory and the external paging device are always in units of a page. A virtual address is mapped to a physical address by a Memory Management Unit (MMU)[3]. When pages are pulled from swap space back into main memory this is called a 'page fault.'

References

  1. John Fotheringham. Dynamic storage allocation in the Atlas computer, including an automatic use of a backing store, in Communications of the ACM, Volume 4 , Issue 10 (October 1961). Pages: 435 - 436 (ACM)
  2. W. S. Davies and T. M. Rajkumar. Operating Systems: A systematic view. Pearson Education, 2005. Page 127
  3. Andrew S. Tannenbaum. Modern Operating Systems. Prentice-Hall 2001. Page 202-203