random-access files - Definition. Was ist random-access files
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Was (wer) ist random-access files - definition

ABILITY TO ACCESS AN ARBITRARY ELEMENT OF A SEQUENCE IN EQUAL TIME
Random-access storage; Random access file; Random-access; Random I/O; Random read; Random write; Direct access (computing)
  • Random access compared to [[sequential access]]

Random access         
Random access (more precisely and more generally called direct access) is the ability to access an arbitrary element of a sequence in equal time or any datum from a population of addressable elements roughly as easily and efficiently as any other, no matter how many elements may be in the set. In computer science it is typically contrasted to sequential access which requires data to be retrieved in the order it was stored.
random access         
¦ noun Computing the process of transferring information to or from memory in which every memory location can be accessed directly rather than being accessed in a fixed sequence.
CREW PRAM         
ABSTRACT COMPUTER FOR DESIGNING PARALLEL ALGORITHMS
Parallel random access machine; Exclusive Read Exclusive Write; Concurrent Read Exclusive Write; Concurrent Read Concurrent Write; EREW; CRCW; Parallel random access model; Concurrent read, exclusive write; ERCW; Concurrent read, concurrent write; Exclusive read, concurrent write; Exclusive read, exclusive write; CRCW-PRAM; CRCW PRAM; EREW-PRAM; EREW PRAM; CREW-PRAM; CREW PRAM; ERCW-PRAM; ERCW PRAM; Concurrent random access machine; Parallel Random Access Machine; Parallel random-access machine
concurrent read, exclusive write PRAM.

Wikipedia

Random access

Random access (more precisely and more generally called direct access) is the ability to access an arbitrary element of a sequence in equal time or any datum from a population of addressable elements roughly as easily and efficiently as any other, no matter how many elements may be in the set. In computer science it is typically contrasted to sequential access which requires data to be retrieved in the order it was stored.

For example, data might be stored notionally in a single sequence like a row, in two dimensions like rows and columns on a surface, or in multiple dimensions. However, given all the coordinates, a program can access each record about as quickly and easily as any other. In this sense, the choice of datum is arbitrary in the sense that no matter which item is sought, all that is needed to find it is its address, i.e. the coordinates at which it is located, such as its row and column (or its track and record number on a magnetic drum). At first, the term "random access" was used because the process had to be capable of finding records no matter in which sequence they were required. However, soon the term "direct access" gained favour because one could directly retrieve a record, no matter what its position might be. The operative attribute, however, is that the device can access any required record immediately on demand. The opposite is sequential access, where a remote element takes longer time to access.

A typical illustration of this distinction is to compare an ancient scroll (sequential; all material prior to the data needed must be unrolled) and the book (direct: can be immediately flipped open to any arbitrary page). A more modern example is a cassette tape (sequential — one must fast forward through earlier songs to get to later ones) and a CD (direct access — one can skip to the track wanted, knowing that it would be the one retrieved).

In data structures, direct access implies the ability to access any entry in a list in constant time (independent of its position in the list and of the list's size). Very few data structures can make this guarantee other than arrays (and related structures like dynamic arrays). Direct access is required, or at least valuable, in many algorithms such as binary search, integer sorting, or certain versions of sieve of Eratosthenes.

Other data structures, such as linked lists, sacrifice direct access to permit efficient inserts, deletes, or re-ordering of data. Self-balancing binary search trees may provide an acceptable compromise, where access time is not equal for all members of a collection, but the maximum time to retrieve a given member grows only logarithmically with its size.