Title :
Restructuring networks to avoid deadlocks in parallel simulations
Author :
Nevison, Christopher H.
Author_Institution :
Dept. of Comput. Sci., Colgate Univ., Hamilton, NY, USA
Abstract :
The authors introduce a novel approach for parallel discrete event simulation which reduces or eliminates the possibility of deadlock without complex time synchronization or deadlock detection protocols. Deadlock is eliminated by restructuring the logical network representing the physical system to an equivalent network which is deadlock free. For large networks, a full elimination of deadlock can concentrate messages too much, so an intermediate restructuring is used to reduce and control the possibilities of deadlock. Empirical studies show that small to medium size queueing networks for which previous conservative methods have failed can be simulated in parallel with efficiencies ranging from 30 to 80%
Keywords :
concurrency control; discrete event simulation; queueing theory; deadlocks; discrete event simulation; empirical studies; equivalent network; logical network; networks restructuring; parallel simulations; queueing networks; Closed loop systems; Computational modeling; Computer science; Computer simulation; Discrete event simulation; Intelligent networks; Manufacturing processes; Protocols; System recovery; Virtual manufacturing;
Conference_Titel :
Simulation Conference, 1990. Proceedings., Winter
Conference_Location :
New Orleans, LA
Print_ISBN :
0-911801-72-3
DOI :
10.1109/WSC.1990.129558
