Title :
Performance limits for processor networks with divisible jobs
Author :
Bataineh, Sameer ; Robertazzi, Thomas G.
Author_Institution :
Dept. of Electr. Eng., Jordan Univ. of Sci. & Technol., Irbid, Jordan
Abstract :
Ultimate performance limits to the aggregate processing speed of networks of processors that are processing a divisible job are described. These take the form of either closed-form expressions or numerical procedures to calculate the equivalent processing speed of an infinite number of processors. These processors are interconnected in either a linear daisy chain with load origination from the network interior or a tree topology. The tree topology is particularly general as a natural way to perform load distribution in a professor network topology with cycles (e.g., hypercube, toroidal network) is to use an embedded spanning tree. Such limits on performance are important as they provide an ideal baseline against which to compare the performance of finite configurations of processors.
Keywords :
computational complexity; network topology; performance evaluation; trees (mathematics); aggregate processing speed; closed-form expressions; divisible job; embedded spanning tree; equivalent processing speed; hypercube; linear daisy chain; numerical procedures; performance limits; processor networks; toroidal network; tree topology; Aggregates; Closed-form solution; Filtering; Hypercubes; Kalman filters; Multiprocessing systems; Network topology; Processor scheduling; Signal processing; Tree graphs;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
