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Kubernetes management design pattern...

Vohra, Deepak.

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Kubernetes management design patterns = with Docker, CoreOS Linux, and other platforms /

Record Type:	Electronic resources : Monograph/item
Title/Author:	Kubernetes management design patterns/ by Deepak Vohra.
Reminder of title:	with Docker, CoreOS Linux, and other platforms /
Author:	Vohra, Deepak.
Published:	Berkeley, CA :Apress : : 2017.,
Description:	xx, 399 p. :ill., digital ;24 cm.
[NT 15003449]:	Part I Platforms -- 1. Kubernetes On AWS -- 2. Kubernetes on CoreOS -- 3. Kubernetes on Google Cloud Platform. Part 2 Administration and Configuration -- 4. Using Multiple Zones -- 5. Using the Tectonic Console -- 6. Using Volumes -- 7. Using Services -- 8. Using Rolling Updates -- 9. Scheduling Pods -- 10. Configuring Compute Resources -- 11. Using Configmaps -- 12. Setting Resource Quotas -- 13. Using Autoscaling -- 14. Configuring Logging. Part 3 High Availability -- 15. Using a HA Master with OpenShift -- 16. Developing a Highly Available Web Site.
Contained By:	Springer eBooks
Subject:	Software architecture. -
Online resource:	http://dx.doi.org/10.1007/978-1-4842-2598-1
ISBN:	9781484225981

Kubernetes management design patterns = with Docker, CoreOS Linux, and other platforms /
Vohra, Deepak.

Kubernetes management design patternswith Docker, CoreOS Linux, and other platforms /[electronic resource] :by Deepak Vohra. - Berkeley, CA :Apress :2017. - xx, 399 p. :ill., digital ;24 cm.

Part I Platforms -- 1. Kubernetes On AWS -- 2. Kubernetes on CoreOS -- 3. Kubernetes on Google Cloud Platform. Part 2 Administration and Configuration -- 4. Using Multiple Zones -- 5. Using the Tectonic Console -- 6. Using Volumes -- 7. Using Services -- 8. Using Rolling Updates -- 9. Scheduling Pods -- 10. Configuring Compute Resources -- 11. Using Configmaps -- 12. Setting Resource Quotas -- 13. Using Autoscaling -- 14. Configuring Logging. Part 3 High Availability -- 15. Using a HA Master with OpenShift -- 16. Developing a Highly Available Web Site.

Take container cluster management to the next level; learn how to administer and configure Kubernetes on CoreOS; and apply suitable management design patterns such as Configmaps, Autoscaling, elastic resource usage, and high availability. Some of the other features discussed are logging, scheduling, rolling updates, volumes, service types, and multiple cloud provider zones. The atomic unit of modular container service in Kubernetes is a Pod, which is a group of containers with a common filesystem and networking. The Kubernetes Pod abstraction enables design patterns for containerized applications similar to object-oriented design patterns. Containers provide some of the same benefits as software objects such as modularity or packaging, abstraction, and reuse. CoreOS Linux is used in the majority of the chapters and other platforms discussed are CentOS with OpenShift, Debian 8 (jessie) on AWS, and Debian 7 for Google Container Engine. You will: Use Kubernetes with Docker Create a Kubernetes cluster on CoreOS on AWS Apply cluster management design patterns Use multiple cloud provider zones Work with Kubernetes and tools like Ansible Discover the Kubernetes-based PaaS platform OpenShift Create a high availability website Build a high availability Kubernetes master cluster Use volumes, configmaps, services, autoscaling, and rolling updates Manage compute resources Configure logging and scheduling.

ISBN: 9781484225981

Standard No.: 10.1007/978-1-4842-2598-1doiSubjects--Uniform Titles:

Linux.
Subjects--Topical Terms:

779138
Software architecture.

LC Class. No.: QA76.754

Dewey Class. No.: 004.21

Kubernetes management design patterns = with Docker, CoreOS Linux, and other platforms /
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505 0 $a Part I Platforms -- 1. Kubernetes On AWS -- 2. Kubernetes on CoreOS -- 3. Kubernetes on Google Cloud Platform. Part 2 Administration and Configuration -- 4. Using Multiple Zones -- 5. Using the Tectonic Console -- 6. Using Volumes -- 7. Using Services -- 8. Using Rolling Updates -- 9. Scheduling Pods -- 10. Configuring Compute Resources -- 11. Using Configmaps -- 12. Setting Resource Quotas -- 13. Using Autoscaling -- 14. Configuring Logging. Part 3 High Availability -- 15. Using a HA Master with OpenShift -- 16. Developing a Highly Available Web Site.
520 $a Take container cluster management to the next level; learn how to administer and configure Kubernetes on CoreOS; and apply suitable management design patterns such as Configmaps, Autoscaling, elastic resource usage, and high availability. Some of the other features discussed are logging, scheduling, rolling updates, volumes, service types, and multiple cloud provider zones. The atomic unit of modular container service in Kubernetes is a Pod, which is a group of containers with a common filesystem and networking. The Kubernetes Pod abstraction enables design patterns for containerized applications similar to object-oriented design patterns. Containers provide some of the same benefits as software objects such as modularity or packaging, abstraction, and reuse. CoreOS Linux is used in the majority of the chapters and other platforms discussed are CentOS with OpenShift, Debian 8 (jessie) on AWS, and Debian 7 for Google Container Engine. You will: Use Kubernetes with Docker Create a Kubernetes cluster on CoreOS on AWS Apply cluster management design patterns Use multiple cloud provider zones Work with Kubernetes and tools like Ansible Discover the Kubernetes-based PaaS platform OpenShift Create a high availability website Build a high availability Kubernetes master cluster Use volumes, configmaps, services, autoscaling, and rolling updates Manage compute resources Configure logging and scheduling.
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