Managed Kubernetes service provide a simple command for creating an entire Kubernetes cluster. This includes the provisioning of machines, installation of Kubernetes, and forming of a cluster. All this is done automatically behind the scenes. All the major cloud providers, AWS, Google, Azure, and IBM Cloud, currently provide managed Kubernetes services. This page gathers a detailed comparison of Managed Kubernetes platforms.
Table of Contents:
Below we have compiled publicly available sources from around the world that present views on Managed Kubernetes.
Best Practices for Running Containers and Kubernetes in Production Covering security, governance, monitoring, storage, networking, container life cycle management and container orchestration.
Kubernetes 101 — If you're getting started with K8s, or want to go in depth, we have you covered with comprehensive reviews of the most important topics for those deploying and using Kubernetes.
Kubernetes Architecture — The Kubernetes cluster architecture provides a flexible, loosely-coupled mechanism for service discovery. Like most distributed computing platforms, a Kubernetes cluster consists of at least one master and multiple compute nodes. This page gathers resources about the Kubernetes architecture components like Kubernetes Nodes, Kubernetes Pods, Kubernetes Registry and more.
Kubernetes Advantages and Use Cases — Kubernetes Guide is a system developed by Google, for managing containerized applications in a clustered environment. It aims to provide better ways of managing related, distributed components across varied infrastructure. This page gathers resources about the advantages and common use cases of using Kubernetes.
Kubernetes Operations — Resources about the process of managing and maintaining production-grade, highly available Kubernetes clusters, including Kubernetes security, Kubernetes networking, Kubernetes load balancing and more.
Kubernetes Cluster — A Kubernetes Guide cluster is made of a master node and a set of worker nodes. In a production environment these run in a distributed setup on multiple nodes. Kubernetes has six main components that form a functioning cluster: API server, Scheduler, Controller manager, kubelet, kube-proxy, etcd. •This page gathers resources about Kubernetes cluster procedures such as configuration, resource management and monitoring.
Kubernetes as a Service — Kubernetes as a Service is the method how your team should organize, or service, pods and the policy by which your team accesses them. Often called a microservice, this organization depends on a variety of unique variables. This Page gathers resources about managed Kubernetes platforms like Amazon EKS, Azure container service and GKE.
Managed Kubernetes — Managed Kubernetes service provide a simple command for creating an entire Kubernetes cluster. This includes the provisioning of machines, installation of Kubernetes, and forming of a cluster. All this is done automatically behind the scenes. All the major cloud providers, AWS, Google, Azure, and IBM Cloud, currently provide managed Kubernetes services. This page gathers a detailed comparison of Managed Kubernetes platforms.
Kubernetes Distributions — Kubernetes is complex, and difficult to set up and configure. The best approach, therefore, is to seek out a complete container solution that includes Kubernetes as a supported, maintained component. This page gathers resources about the leading Kubetnetes distributions such as OpenShift, Canonical, Rancher and more.
Enterprise Kubernetes — When Kubernetes came on the scene in 2014, it made an impact and continues to impact the way companies build software. Large companies have backed it, causing a ripple effect in the industry and impacting open source and commercial systems. This page gather resources about Kubernetes in the enterprise : features, considerations, and case studies.