Understanding the Behavior of Operator Placement Mechanisms on Large-Scale Networks

Proceedings of the 19th International Middleware Conference (Posters) Pub Date : 2018-12-10 DOI:10.1145/3284014.3284024

Manisha Luthra, Sebastian Hennig, B. Koldehofe

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引用次数: 2

Abstract

Operator Placement (OP) mechanism dictates the mapping of compute units, aka. operators on the network infrastructure based on the performance objectives requested by the end-user. The behavior of a placement is strongly influenced by the underlying environment e.g., the workload of queries or performance objectives of a large number of users. Due to this reason, it is not sufficient to build Distributed Complex Event Processing (DCEP) just on a single placement mechanism, but it can benefit from an adaptive use of multiple placement mechanisms. Tcep provides this by (i) supporting key interfaces to develop OP mechanisms, (ii) allowing a dynamic exchange of OP mechanisms based on the user requirements and (iii) facilitating deployment of the operators on a wide range of network infrastructure. In this demonstration1, we (i) provide an understanding on the behavior of OP mechanisms in Tcep on large-scale networks using GENI testbed2 and (ii) show using the transition methodology in Tcep, that different OP mechanisms can be utilized to fulfill the performance requirements of a large number of users.

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大规模网络中运营商配置机制的行为理解

操作符放置(OP)机制规定了计算单元的映射，即。运营商根据最终用户要求的性能目标对网络基础设施进行优化。放置的行为受到底层环境的强烈影响，例如，查询的工作负载或大量用户的性能目标。由于这个原因，仅在单一放置机制上构建分布式复杂事件处理(DCEP)是不够的，但是它可以从自适应地使用多个放置机制中获益。Tcep通过(i)支持开发OP机制的关键接口，(ii)允许根据用户需求动态交换OP机制，以及(iii)促进运营商在广泛的网络基础设施上的部署来实现这一点。在本演示中，我们(i)使用GENI测试平台2提供了对大规模网络上Tcep中OP机制行为的理解，(ii)使用Tcep中的转换方法显示，可以利用不同的OP机制来满足大量用户的性能要求。

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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Proceedings of the 19th International Middleware Conference (Posters)

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