Title :
Sync classes: a framework for optimal scheduling of requests in multimedia storage servers
Author :
Golubchik, Leana ; Subrahmanian, V.S. ; Marcus, Sherry ; Biskup, Joachim
Author_Institution :
Dept. of Comput. Sci., Maryland Univ., College Park, MD, USA
Abstract :
There have been many proposals on how media-on-demand servers can effectively allow clients to share resources. In this paper, given a set of clients, we show how these clients may be partitioned into “sync-classes” sets of clients who can be serviced through allocation of a single set of resources. As a set of clients may be partitioned into sync-classes in many different ways, we show that a very large class of cost functions may be used to determine which partition to choose. We provide algorithms to compute such optimal splits. Our framework is very generic in the following ways: the system may plug-in any cost function whatsoever, as long as it satisfies four common-sense axioms that evaluate costs; and the system may evaluate the future anticipated requests of a user using any user model (e.g., a Markovian model) that has a specified I/O interface. Thus, a wide variety of predictive methods (of what the user will do) and a wide variety of costing methods may be used within our framework
Keywords :
multimedia databases; multimedia servers; resource allocation; scheduling; user modelling; Markovian model; cost functions; costing; input output interface; media-on-demand servers; multimedia storage servers; optimal request scheduling; resource allocation; sync-classes; user model; Bandwidth; Cost function; Costing; Information retrieval; Large-scale systems; Multimedia systems; Optimal scheduling; Partitioning algorithms; Proposals; Resource management;
Journal_Title :
Knowledge and Data Engineering, IEEE Transactions on
