COLD: Cloud Optimized Workload Deployer

2014 IEEE 22nd International Symposium on Modelling, Analysis & Simulation of Computer and Telecommunication Systems Pub Date : 2014-09-09 DOI:10.1109/MASCOTS.2014.76

Diana Arroyo, Iqbal Mohomed

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引用次数: 1

Abstract

We demonstrate a prototype system called COLD that we are developing at IBM Research which provides optimized deployment of workload in the cloud. A workload refers to an application, consisting of virtual entities (e.g. VM, volume), to be deployed in a cloud infrastructure, consisting of physical entities (e.g. PM, storage). The resource requirements of the virtual entities, as well as metadata describing relations among virtual entities (e.g. location proximity requirement), are described using a declarative workload definition language, namely using a HOT template. COLD provides a clean separation between the underlying mechanisms offered by a given cloud environment for lifecycle management of virtual resources and policies that influence optimal placement. The current implementation of COLD is tied to Open Stack, though we have plans in the future to make it cloud agnostic. It is designed to be fault-tolerant. In a software defined environment of an Open Stack cloud with various hyper visors, we show the operation of COLD to place various Heat stacks that contain specific policies such as rack-level antic location.

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COLD:云优化的工作负载部署器

我们演示了一个名为COLD的原型系统，该系统是我们在IBM研究院开发的，它在云中提供了优化的工作负载部署。工作负载是指由虚拟实体(例如VM、volume)组成的应用程序，该应用程序将部署在由物理实体(例如PM、storage)组成的云基础架构中。虚拟实体的资源需求，以及描述虚拟实体之间关系的元数据(例如位置邻近需求)，使用声明性工作负载定义语言进行描述，即使用HOT模板。COLD在给定云环境提供的用于虚拟资源生命周期管理的底层机制和影响最佳布局的策略之间提供了清晰的分离。目前COLD的实现与Open Stack绑定在一起，尽管我们计划在未来使其与云无关。它被设计为容错的。在具有各种虚拟监控程序的开放堆栈云的软件定义环境中，我们展示了COLD的操作，以放置包含特定策略(如机架级antic位置)的各种Heat堆栈。

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

2014 IEEE 22nd International Symposium on Modelling, Analysis & Simulation of Computer and Telecommunication Systems

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