Title :
Complete decomposition of stochastic Petri nets representing generalized service networks
Author :
Li, Yao ; Woodside, C. Murray
Author_Institution :
Bell-Northern Res., Ottawa, Ont., Canada
fDate :
8/1/1995 12:00:00 AM
Abstract :
Complete decomposition is a new strategy for evaluating the performance of a network of generalized service centers, represented in the notation of Generalized Stochastic Petri Nets (GSPNs). Each service center can have arbitrary internal structure (including internal parallelism), but it must conserve tokens at the boundaries, and its inputs must be i/o-connected to its outputs. Routing between centers can depend on the state of the departure center. The new method adapts a delay equivalence decomposition technique used previously. Within this framework, it reduces the solution complexity of the auxiliary models which must be solved in the iteration. This new method is applied to a scalable model for computer system performance
Keywords :
Petri nets; computational complexity; performance evaluation; arbitrary internal structure; auxiliary models; complete decomposition; delay equivalence decomposition technique; generalized service networks; performance evaluation; scalable model; solution complexity; stochastic Petri nets; Concurrent computing; Delay; Explosions; Flexible manufacturing systems; Parallel processing; Performance analysis; Petri nets; Routing; Stochastic processes; System performance;
Journal_Title :
Computers, IEEE Transactions on
