The Influence of Data Base Characteristics and Usage on Direct Access File Organization
Journal of the ACM (JACM)
Queueing Analysis of the IBM 2314 Disk Storage Facility
Journal of the ACM (JACM)
Analysis of a Drum Input/Output Queue Under Scheduled Operation in a Paged Computer System
Journal of the ACM (JACM)
Communications of the ACM
Some techniques and trade-offs affecting large data base retrieval times
ACM '69 Proceedings of the 1969 24th national conference
The UTS time-sharing system: performance analysis and instrumentation
SOSP '69 Proceedings of the second symposium on Operating systems principles
Effects of scheduling on file memory operations
AFIPS '67 (Spring) Proceedings of the April 18-20, 1967, spring joint computer conference
Data base design using a CODASYL system
ACM '74 Proceedings of the 1974 annual ACM conference - Volume 2
Data base design using IMS/360
AFIPS '72 (Fall, part II) Proceedings of the December 5-7, 1972, fall joint computer conference, part II
Optimal file allocation in multi-level storage systems
AFIPS '73 Proceedings of the June 4-8, 1973, national computer conference and exposition
A simulation model for data base system performance evaluation
AFIPS '75 Proceedings of the May 19-22, 1975, national computer conference and exposition
Access methods: a brief overview for the 1971 ACM SIGFIDET Workshop
SIGFIDET '71 Proceedings of the 1971 ACM SIGFIDET (now SIGMOD) Workshop on Data Description, Access and Control
Efficient batch updating of a random file
SIGFIDET '71 Proceedings of the 1971 ACM SIGFIDET (now SIGMOD) Workshop on Data Description, Access and Control
Bibliography on data base structures
ACM SIGMIS Database
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With the rapid development of the Business Data Processing technology, numerous Data Management Systems have evolved. Many have been written for use on a variety of machines, in a variety of applications. In each case, the basic limitations on performance are a function of the file organization technique (s) supported within the system. Apart from such mundane considerations as cost, compatibility, etc., the selection of the "best" system is frequently reduced to the selection of the file organization technique best suited to the intended application. Just as a variety of applications exist, so a variety of file organization techniques are available. File organization techniques are frequently classified in terms of their operational characteristics. More basic, however, is a classification based on functional objectives. Collmeyer has described four basic types of file organization techniques. The simplest, Type O, is exemplified by the "sequential" organization wherein records are filed in the order of arrival and retrieval is accomplished via a sequential (top-to-bottom) search of the file.