虚拟化DDS中间件:性能挑战和度量

Rosbel Serrano-Torres, M. García-Valls, P. Basanta-Val
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引用次数: 13

摘要

随着新技术的出现,系统的复杂性增加,这反过来又提高了用户对可能更复杂的新应用程序的期望。这个螺旋过程需要使用适当的技术来控制复杂性,例如解耦设计和开发范例,以及促进分布式应用程序开发的通信中间件。目前,它们的最高代表是DDS中间件(分布式实时系统的数据分发系统),它是专门为具有定时需求的应用程序设计的。此外,虚拟化技术遵循降低复杂性的原则,它们允许定制所提供的计算平台,并在不同的领域(从工业控制系统、分布式监视或企业资源规划应用程序)中实现服务器整合。本文描述了将实时中间件(如DDS)和虚拟化技术合并以适应网络物理领域的一些注意事项。这种虚拟集成试图绕过典型的性能瓶颈。性能结果跟踪在裸机中执行DDS中间件与在虚拟化环境中执行DDS中间件之间的差异。
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Virtualizing DDS middleware: Performance challenges and measurements
As new technology becomes available, systems increase in complexity, which in turn, raises the expectations of users for new applications that may presumably be more complex. This spiral process requires the usage of appropriate techniques to control complexity such as decoupled design and development paradigms, and communications middleware that facilitate the development of distributed applications. The highest exponent of them is, currently, DDS middleware (Data Distribution System for Distributed Real-Time Systems) that is specifically designed for applications that have timing requirements. Also, virtualization techniques follow the principle of complexity reduction, and they allow to customize the offered computational platforms and to achieve server consolidation in different domains ranging from industrial control systems, distributed surveillance, or enterprise resource planning applications. This paper describes some considerations for merging real-time middleware, such as DDS, and virtualization technology with the aim of suiting the cyber physical domain. This virtual integration tries to bypass the typical bottlenecks of performance. Performance results track the differences between the executions of DDS middleware in the bare machine compared to a virtualized environment.
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