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引用次数: 4
摘要
软件产品线工程旨在重用和自动化软件开发,以降低成本,缩短开发周期,并保持质量。然而,对于具有固定的开发过程和大型代码库的组织来说,采用SPL方法可能是一项艰巨的任务。在本文中,我们提出了在Heinsohn Business Technology (HBT)中采用SPL的工业实验和建议,这是一家专门从事金融、运输、抵押贷款支持证券和养老基金解决方案的软件开发公司。我们首先识别和建模HBT所承担的开发类型所固有的多变性水平。接下来,我们定义每个级别内部以及级别之间的限制,以充分表征HBT软件产品。为了限制对组织开发过程的影响,我们使用了一种抽取方法。这允许我们从当前的软件工件开始设计核心资产。整个方法基于HBT多年来开发的真实软件构件,这些构件的组合产生了大约4.88e11种可能的产品配置。
Extractive SPL adoption using multi-level variability modeling
Software Product Line engineering aims at reusing and automating software development to reduce costs, have shorter development cycles, and maintain quality. However, for organizations with settled development processes and a large code base, adopting an SPL approach may prove to be a daunting task. In this paper we present an industrial experimentation and a proposal for an SPL adoption in Heinsohn Business Technology (HBT), a software development company specialized in financial, transportation, mortgage-backed securities, and pension-fund solutions. We start by identifying and modeling multiple levels of variability inherent to the kind of developments undertaken by HBT. Next, we define restrictions inside every level as well as between the levels to fully characterize an HBT software product. To limit the impact on the organization development process, we use an extractive approach. This allows us to design core assets starting from current software artifacts. The overall approach is based on real-world software artifacts developed over the years by HBT, whose combinations result in approximately 4.88e11 possible product configurations.
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