Title :
Unsynchronized parallel discrete event simulation
Author :
Rao, Dhananjai Madhava ; Thondugulam, Narayanan V. ; Radhakrishnan, Radharamanan ; Wilsey, Philip A.
Author_Institution :
Comput.. Archit. Design Lab., Cincinnati, OH, USA
Abstract :
Distributed synchronization for parallel simulation is generally classified as being either optimistic or conservative. While considerable investigations have been conducted to analyze and optimize each of these synchronization strategies, very little study on the definition and strictness of causality have been conducted. Do we really need to preserve causality in all types of simulations? The paper attempts to answer this question. We argue that significant performance gains can be made by reconsidering this definition to decide if the parallel simulation needs to preserve causality. We investigate the feasibility of unsynchronized parallel simulation through the use of several queuing model simulations and present a comparative analysis between unsynchronized and Time Warp simulation
Keywords :
parallel programming; queueing theory; synchronisation; time warp simulation; Time Warp simulation; causality; comparative analysis; distributed synchronization; performance gains; queuing model simulations; synchronization strategies; unsynchronized parallel discrete event simulation; unsynchronized parallel simulation; Analytical models; Computational modeling; Computer architecture; Discrete event simulation; Laboratories; Parallel processing; Performance analysis; Performance gain; Queueing analysis; Time warp simulation;
Conference_Titel :
Simulation Conference Proceedings, 1998. Winter
Conference_Location :
Washington, DC
Print_ISBN :
0-7803-5133-9
DOI :
10.1109/WSC.1998.746030
