Performance Evaluation of Microservices Architectures Using Containers

2015 IEEE 14th International Symposium on Network Computing and Applications Pub Date : 2015-09-28 DOI:10.1109/NCA.2015.49

Marcelo Amaral, Jordà Polo, David Carrera, Iqbal Mohomed, Merve Unuvar, M. Steinder

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引用次数: 163

Abstract

Micro services architecture has started a new trend for application development for a number of reasons: (1) to reduce complexity by using tiny services, (2) to scale, remove and deploy parts of the system easily, (3) to improve flexibility to use different frameworks and tools, (4) to increase the overall scalability, and (5) to improve the resilience of the system. Containers have empowered the usage of micro services architectures by being lightweight, providing fast start-up times, and having a low overhead. Containers can be used to develop applications based on monolithic architectures where the whole system runs inside a single container or inside a micro services architecture where one or few processes run inside the containers. Two models can be used to implement a micro services architecture using containers: master-slave, or nested-container. The goal of this work is to compare the performance of CPU and network running benchmarks in the two aforementioned models of micro services architecture hence provide a benchmark analysis guidance for system designers.

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使用容器的微服务架构性能评估

微服务架构开启了应用程序开发的新趋势，原因如下:(1)通过使用微服务来降低复杂性;(2)易于扩展、删除和部署系统的部分;(3)提高使用不同框架和工具的灵活性;(4)增加整体可扩展性;(5)提高系统的弹性。容器通过轻量级、快速启动和低开销，增强了微服务架构的使用能力。容器可用于开发基于单片体系结构的应用程序，其中整个系统在单个容器中运行，或者在微服务体系结构中，其中一个或几个进程在容器中运行。可以使用两种模型来实现使用容器的微服务体系结构:主从式或嵌套式容器。这项工作的目标是比较上述两种微服务架构模型中CPU和网络运行基准的性能，从而为系统设计人员提供基准分析指导。

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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来源期刊

2015 IEEE 14th International Symposium on Network Computing and Applications

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