- Sort Score
- Result 10 results
- Languages All
- Labels All
Results 21 - 30 of 660 for host:kubernetes.io (0.02 sec)
-
Pod Lifecycle | Kubernetes
This page describes the lifecycle of a Pod. Pods follow a defined lifecycle, starting in the Pending phase, moving through Running if at least one of its primary containers starts OK, and then through either the Succeeded or Failed phases depending on whether any container in the Pod terminated in failure. Whilst a Pod is running, the kubelet is able to restart containers to handle some kind of faults. Within a Pod, Kubernetes tracks different container states and determines what action to take to make the Pod healthy again.kubernetes.io/docs/concepts/workloads/pods/pod-lifecycle/Registered: Fri May 17 07:24:34 UTC 2024 - 464.6K bytes - Viewed (0) -
Overview | Kubernetes
Kubernetes is a portable, extensible, open source platform for managing containerized workloads and services, that facilitates both declarative configuration and automation. It has a large, rapidly growing ecosystem. Kubernetes services, support, and tools are widely available.kubernetes.io/docs/concepts/overview/Registered: Fri May 17 07:24:43 UTC 2024 - 427.1K bytes - Viewed (0) -
Objects In Kubernetes | Kubernetes
Kubernetes objects are persistent entities in the Kubernetes system. Kubernetes uses these entities to represent the state of your cluster. Learn about the Kubernetes object model and how to work with these objects.kubernetes.io/docs/concepts/overview/working-with-objects/Registered: Fri May 17 07:24:49 UTC 2024 - 431.2K bytes - Viewed (0) -
The Kubernetes API | Kubernetes
The Kubernetes API lets you query and manipulate the state of objects in Kubernetes. The core of Kubernetes' control plane is the API server and the HTTP API that it exposes. Users, the different parts of your cluster, and external components all communicate with one another through the API server.kubernetes.io/docs/concepts/overview/kubernetes-api/Registered: Fri May 17 07:24:03 UTC 2024 - 434.6K bytes - Viewed (0) -
PKI certificates and requirements | Kubernetes
Kubernetes requires PKI certificates for authentication over TLS. If you install Kubernetes with kubeadm, the certificates that your cluster requires are automatically generated. You can also generate your own certificates -- for example, to keep your private keys more secure by not storing them on the API server. This page explains the certificates that your cluster requires. How certificates are used by your cluster Kubernetes requires PKI for the following operations:kubernetes.io/docs/setup/best-practices/certificates/Registered: Fri May 17 07:24:39 UTC 2024 - 431.7K bytes - Viewed (0) -
Field Selectors | Kubernetes
Field selectors let you select Kubernetes objects based on the value of one or more resource fields. Here are some examples of field selector queries: metadata.name=my-service metadata.namespace!=default status.phase=Pending This kubectl command selects all Pods for which the value of the status.phase field is Running: kubectl get pods --field-selector status.phase=Running Note:Field selectors are essentially resource filters. By default, no selectors/filters are applied, meaning that all resources of the specified type are selected.kubernetes.io/docs/concepts/overview/working-with-objects/field-selectors/Registered: Fri May 17 07:25:14 UTC 2024 - 424K bytes - Viewed (0) -
Multi-tenancy | Kubernetes
This page provides an overview of available configuration options and best practices for cluster multi-tenancy. Sharing clusters saves costs and simplifies administration. However, sharing clusters also presents challenges such as security, fairness, and managing noisy neighbors. Clusters can be shared in many ways. In some cases, different applications may run in the same cluster. In other cases, multiple instances of the same application may run in the same cluster, one for each end user.kubernetes.io/docs/concepts/security/multi-tenancy/Registered: Fri May 17 07:35:25 UTC 2024 - 450.8K bytes - Viewed (0) -
Dynamic Resource Allocation | Kubernetes
FEATURE STATE: Kubernetes v1.26 [alpha] Dynamic resource allocation is an API for requesting and sharing resources between pods and containers inside a pod. It is a generalization of the persistent volumes API for generic resources. Third-party resource drivers are responsible for tracking and allocating resources, with additional support provided by Kubernetes via structured parameters (introduced in Kubernetes 1.30). When a driver uses structured parameters, Kubernetes handles scheduling and resource allocation without having to communicate with the driver.kubernetes.io/docs/concepts/scheduling-eviction/dynamic-resource-allocation/Registered: Fri May 17 07:35:56 UTC 2024 - 440.9K bytes - Viewed (0) -
Administration with kubeadm | Kubernetes
Administration with kubeadm Certificate Management with kubeadm Configuring a cgroup driver Reconfiguring a kubeadm c...kubernetes.io/docs/tasks/administer-cluster/kubeadm/Registered: Fri May 17 07:36:17 UTC 2024 - 414.8K bytes - Viewed (0) -
Install and Set Up kubectl on Windows | Kubernetes
Before you begin You must use a kubectl version that is within one minor version difference of your cluster. For example, a v1.30 client can communicate with v1.29, v1.30, and v1.31 control planes. Using the latest compatible version of kubectl helps avoid unforeseen issues. Install kubectl on Windows The following methods exist for installing kubectl on Windows: Install kubectl binary with curl on Windows Install on Windows using Chocolatey, Scoop, or winget Install kubectl binary with curl on Windows Download the latest 1.kubernetes.io/docs/tasks/tools/install-kubectl-windows/Registered: Fri May 17 07:36:48 UTC 2024 - 434.1K bytes - Viewed (0)