Simulating the Software Development Lifecycle: The Waterfall Model

IF 3.7 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS Applied System Innovation Pub Date : 2023-11-14 DOI:10.3390/asi6060108

Antonios Saravanos, Matthew X. Curinga

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Abstract

This study employs a simulation-based approach, adapting the waterfall model, to provide estimates for software project and individual phase completion times. Additionally, it pinpoints potential efficiency issues stemming from suboptimal resource levels. We implement our software development lifecycle simulation using SimPy, a Python discrete-event simulation framework. Our model is executed within the context of a software house on 100 projects of varying sizes examining two scenarios. The first provides insight based on an initial set of resources, which reveals the presence of resource bottlenecks, particularly a shortage of programmers for the implementation phase. The second scenario uses a level of resources that would achieve zero-wait time, identified using a stepwise algorithm. The findings illustrate the advantage of using simulations as a safe and effective way to experiment and plan for software development projects. Such simulations allow those managing software development projects to make accurate, evidence-based projections as to phase and project completion times as well as explore the interplay with resources.

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模拟软件开发生命周期:瀑布模型

本研究采用基于模拟的方法，调整瀑布模型，为软件项目和单个阶段的完成时间提供估计。此外，它还指出了由于资源水平不够理想而产生的潜在效率问题。我们使用SimPy(一个Python离散事件模拟框架)实现软件开发生命周期模拟。我们的模型是在一个软件公司的环境中执行的，该公司有100个不同规模的项目，并检查了两个场景。第一种方法提供了基于初始资源集的洞察力，它揭示了资源瓶颈的存在，特别是实现阶段的程序员短缺。第二个场景使用可以实现零等待时间的资源级别，使用逐步算法确定。这些发现说明了使用模拟作为一种安全有效的方法来实验和计划软件开发项目的优势。这样的模拟允许那些管理软件开发项目的人对阶段和项目完成时间做出准确的、基于证据的预测，并探索与资源的相互作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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