Title :
A selectivity model for fragmented relations: applied in information retrieval
Author :
Blok, Henk Ernst ; Choenni, Sunil ; Blanken, Henk M. ; Apers, Peter M G
Author_Institution :
Dept. of Comput. Sci., Twente Univ., Enschede, Netherlands
fDate :
5/1/2004 12:00:00 AM
Abstract :
New application domains cause today´s database sizes to grow rapidly, posing great demands on technology. Data fragmentation facilitates techniques (like distribution, parallelization. and main-memory computing) meeting these demands. Also, fragmentation might help to improve efficient processing of query types such as top N. Database design and query optimization require a good notion of the costs resulting from a certain fragmentation. Our mathematically derived selectivity model facilitates this. Once its two parameters have been computed based on the fragmentation, after each (though usually infrequent) update, our model can forget the data distribution, resulting in fast and quite good selectivity estimation. We show experimental verification for Zipfian distributed IR databases.
Keywords :
distributed databases; information retrieval; storage management; Zipfian distributed IR databases; data distribution; data fragmentation; database design; fragmented relations; information retrieval; main-memory computing; mathematically derived selectivity model; query optimization; query types; selectivity model; Computer applications; Concurrent computing; Context modeling; Cost function; Distributed computing; Distributed databases; Information retrieval; Mathematical model; Predictive models; Query processing;
Journal_Title :
Knowledge and Data Engineering, IEEE Transactions on
DOI :
10.1109/TKDE.2004.1277824
