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Mastering Mesos

You're reading from   Mastering Mesos The ultimate guide to managing, building, and deploying large-scale clusters with Apache Mesos

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Product type Paperback
Published in May 2016
Publisher Packt
ISBN-13 9781785886249
Length 352 pages
Edition 1st Edition
Tools
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Authors (2):
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Akhil Das Akhil Das
Author Profile Icon Akhil Das
Akhil Das
Dipa Dubhashi Dipa Dubhashi
Author Profile Icon Dipa Dubhashi
Dipa Dubhashi
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Toc

Table of Contents (11) Chapters Close

Preface 1. Introducing Mesos 2. Mesos Internals FREE CHAPTER 3. Getting Started with Mesos 4. Service Scheduling and Management Frameworks 5. Mesos Cluster Deployment 6. Mesos Frameworks 7. Mesos Containerizers 8. Mesos Big Data Frameworks 9. Mesos Big Data Frameworks 2 Index

Introduction to the datacenter OS and architecture of Mesos

Over the past decade, datacenters have graduated from packing multiple applications into a single server box to having large datacenters that aggregate thousands of servers to serve as a massively distributed computing infrastructure. With the advent of virtualization, microservices, cluster computing, and hyperscale infrastructure, the need of the hour is the creation of an application-centric enterprise that follows a software-defined datacenter strategy.

Currently, server clusters are predominantly managed individually, which can be likened to having multiple operating systems on the PC, one each for processor, disk drive, and so on. With an abstraction model that treats these machines as individual entities being managed in isolation, the ability of the datacenter to effectively build and run distributed applications is greatly reduced.

Another way of looking at the situation is comparing running applications in a datacenter to running them on a laptop. One major difference is that while launching a text editor or web browser, we are not required to check which memory modules are free and choose ones that suit our need. Herein lies the significance of a platform that acts like a host operating system and allows multiple users to run multiple applications simultaneously by utilizing a shared set of resources.

Datacenters now run varied distributed application workloads, such as Spark, Hadoop, and so on, and need the capability to intelligently match resources and applications. The datacenter ecosystem today has to be equipped to manage and monitor resources and efficiently distribute workloads across a unified pool of resources with the agility and ease to cater to a diverse user base (noninfrastructure teams included). A datacenter OS brings to the table a comprehensive and sustainable approach to resource management and monitoring. This not only reduces the cost of ownership but also allows a flexible handling of resource requirements in a manner that isolated datacenter infrastructure cannot support.

The idea behind a datacenter OS is that of intelligent software that sits above all the hardware in a datacenter and ensures efficient and dynamic resource sharing. Added to this is the capability to constantly monitor resource usage and improve workload and infrastructure management in a seamless way that is not tied to specific application requirements. In its absence, we have a scenario with silos in a datacenter that force developers to build software catering to machine-specific characteristics and make the moving and resizing of applications a highly cumbersome procedure.

The datacenter OS acts as a software layer that aggregates all servers in a datacenter into one giant supercomputer to deliver the benefits of multilatency, isolation, and resource control across all microservice applications. Another major advantage is the elimination of human-induced error during the continual assigning and reassigning of virtual resources.

From a developer's perspective, this will allow them to easily and safely build distributed applications without restricting them to a bunch of specialized tools, each catering to a specific set of requirements. For instance, let's consider the case of Data Science teams who develop analytic applications that are highly resource intensive. An operating system that can simplify how the resources are accessed, shared, and distributed successfully alleviates their concern about reallocating hardware every time the workloads change.

Of key importance is the relevance of the datacenter OS to DevOps, primarily a software development approach that emphasizes automation, integration, collaboration, and communication between traditional software developers and other IT professionals. With a datacenter OS that effectively transforms individual servers into a pool of resources, DevOps teams can focus on accelerating development and not continuously worry about infrastructure issues.

In a world where distributed computing becomes the norm, the datacenter OS is a boon in disguise. With freedom from manually configuring and maintaining individual machines and applications, system engineers need not configure specific machines for specific applications as all applications would be capable of running on any available resources from any machine, even if there are other applications already running on them. Using a datacenter OS results in centralized control and smart utilization of resources that eliminate hardware and software silos to ensure greater accessibility and usability even for noninfrastructural professionals.

Examples of some organizations administering their hyperscale datacenters via the datacenter OS are Google with the Borg (and next generation Omega) systems. The merits of the datacenter OS are undeniable, with benefits ranging from the scalability of computing resources and flexibility to support data sharing across applications to saving team effort, time, and money while launching and managing interoperable cluster applications.

It is this vision of transforming the datacenter into a single supercomputer that Apache Mesos seeks to achieve. Born out of a Berkeley AMPLab research paper in 2011, it has since come a long way with a number of leading companies, such as Apple, Twitter, Netflix, and AirBnB among others, using it in production. Mesosphere is a start-up that is developing a distributed OS product with Mesos at its core.

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