Parallel discrete event simulation with SIMULA

Over the past decade, techniques for parallel and distributed discrete-event simulation have been developed largely within the academic research community. The advent of cluster computing and desktop multiprocessors has now made it feasible to bring these results to bear on the simulation of large,

A useful discrete-event simulation environment should support component-level reuse, integration of graphical tools, and scalable performance. The JTED framework (http://www.cooperate.com/JTED) demonstrates that Java can serve as the basis for constructing very large models that achieve these goals.

A simulator based on a synchronous parallel simulation scheme is developed on an SIMD computer, a connection machine (CM-2) with \(8 \mathrm{~K}\) processors. Multistage interconnection networks of different sizes ( 2 to 16 stages) are simulated. Two categories of experiments are performed: symmetri

The utilization of coordination languages based on the generative paradigm for supporting the implementation of parallel discrete-event simulators is considered. A parallel simulation methodol-Ž . ogy called Active-Events ActE which is based on a sophisticated generative coordination model is propos