Encyclopedia > UDF Format

  Article Content

UDF

Redirected from UDF Format

UDF means "Universal Disk Format".

The UDF format is used for so called "packet written" writable CD-ROMs that are not simply copies of ISO 9660 CDROMs. Packet writing allows CDs to be partially written using variable or fixed length records in multiple sessions. Variable length packets written CD-Rs and CD-RWs can (usually) be closed to ISO 9660 format just by writing a table of contents on the CD. Fixed length packet formatting can not be closed to ISO 9660 format, but can be randomly written and overwritten. Fixed length formatting cuts CD capacity by about 20% relative to ISO 9660 or variable length formatting.

Conventional operating systems only provide support for ISO 9660 format unless special drivers are loaded. Thus UDF formatted information can not be used or listened to without closing the file to ISO 9660 format. Once closed, the CDROM can not be reopened.


More generally, UDF is a format specification of a file system for storing files on recordable media, mainly media with limited rewriting conditions, such as:

  • MO (magneto optical)
  • DVD (including DVD-ROM, DVD-R and others)
  • CD-R, CD-RW

It is mainly used for DVD-Video discs, but also by software such as DirectCD for Windows by Roxio, or Write UDF by Software Architects.

UDF is practically the successor of ISO 9660, supporting larger files, larger disk and more information about individual files and folders (e.g., it includes support for special file properties, such as Apple's File Types, Resource Forks, and other OS-specific data).

External link



All Wikipedia text is available under the terms of the GNU Free Documentation License

 
  Search Encyclopedia

Search over one million articles, find something about almost anything!
 
 
  
  Featured Article
Urethra

... a reproductive function in the male, as a passage for sperm. The external urethral sphincter is the skeletal muscle that allows voluntary control over urination. ...

 
 
 
This page was created in 24.4 ms