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Main Authors: Risco-Martín, José L., Mittal, Saurabh, Fabero, Juan Carlos, Zapater, Marina, Hermida, Román
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2402.05483
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author Risco-Martín, José L.
Mittal, Saurabh
Fabero, Juan Carlos
Zapater, Marina
Hermida, Román
author_facet Risco-Martín, José L.
Mittal, Saurabh
Fabero, Juan Carlos
Zapater, Marina
Hermida, Román
contents The Discrete Event System Specification formalism (DEVS), which supports hierarchical and modular model composition, has been widely used to understand, analyze and develop a variety of systems. DEVS has been implemented in various languages and platforms over the years. The DEVStone benchmark was conceived to generate a set of models with varied structure and behavior, and to automate the evaluation of the performance of DEVS-based simulators. However, DEVStone is still in a preliminar phase and more model analysis is required. In this paper, we revisit DEVStone introducing new equations to compute the number of events triggered. We also introduce a new benchmark, called HOmem, designed as an alternative version of HOmod, with similar CPU and memory requirements, but with an easier implementation and analytically more manageable. Finally, we compare both the performance and memory footprint of five different DEVS simulators in two different hardware platforms.
format Preprint
id arxiv_https___arxiv_org_abs_2402_05483
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Reconsidering the performance of DEVS modeling and simulation environments using the DEVStone benchmark
Risco-Martín, José L.
Mittal, Saurabh
Fabero, Juan Carlos
Zapater, Marina
Hermida, Román
Performance
The Discrete Event System Specification formalism (DEVS), which supports hierarchical and modular model composition, has been widely used to understand, analyze and develop a variety of systems. DEVS has been implemented in various languages and platforms over the years. The DEVStone benchmark was conceived to generate a set of models with varied structure and behavior, and to automate the evaluation of the performance of DEVS-based simulators. However, DEVStone is still in a preliminar phase and more model analysis is required. In this paper, we revisit DEVStone introducing new equations to compute the number of events triggered. We also introduce a new benchmark, called HOmem, designed as an alternative version of HOmod, with similar CPU and memory requirements, but with an easier implementation and analytically more manageable. Finally, we compare both the performance and memory footprint of five different DEVS simulators in two different hardware platforms.
title Reconsidering the performance of DEVS modeling and simulation environments using the DEVStone benchmark
topic Performance
url https://arxiv.org/abs/2402.05483