With a Kubernetes architecture diagram from FigJam, you’ll have complete control over your containers long before you start launching them.
See the kubernetes deployment and management of containerized applications clearly—and share insights team wide on FigJam’s Kubernetes diagram generator.
Let FigJam’s k8s architecture diagram help you plan the perfect rollout and deployment configuration by visualizing your transition to containerized software.
Perfect your platform: Create a flexible open-source platform for managing your containerized application.
Visualize your launch: See, scale, manage, and deploy your application without breaking a sweat.
Contain remote challenges: Your team can work on your k8s template configuration file anywhere, anytime thanks to FigJam’s shared workspaces.
Get your Kubernetes cluster diagram and kubernetes components right the first time when you hack together on FigJam. Tap into intuitive design tools and provide instant feedback with widgets like Lil Notes, To Do, and Alignment Scale. Keep cutting-edge tech at your fingertips—and the forefront of your application.
Organizing your information is key to achieving success. When you diagram with FigJam’s Community templates, you open up a whole new world of possibilities.
Kubernetes is an open-source management software for containerized applications that works by architecting storage systems, balancing network traffic, healing failed containers, and configuring information. It is a complex and technical framework used to automate the management and production deployment of containerized services and systems.
Why are containers important? Containers make it possible to run programs in many different environments. By displaying the management of containers, specifically through Kubernetes documentation, Kubernetes diagrams allow development teams to orchestrate many clusters of containers within one cloud-based OS.
A Kubernetes cluster diagram is comprised of several components that make the application work. These include:
The control plane– These components dictate how a Kubernetes cluster operates, monitoring nodes and reacting and responding to events.
Worker nodes – These machines (physical or virtual) run pods to scale workloads.
Pods– The smallest units in Kubernetes, a kubernetes podpowers application processes.
These components work together to manage applications and address issues with automated ease, ensuring your users have a seamless experience.
Kubernetes architecture is the organizational framework that allows the platform to function. It is an environment that contains a control plane, a storage system, and agents, or kubelets, that run containerized applications. These systems interact with one another to automate the management of an application in the cloud through a deployment controller.
You can use FigJam’s Kubernetes cluster architecture diagram to brainstorm and strategize about the backend work of utilizing Kubernetes service. Intuitive design tools make it easy to visually represent complex systems, and integrated widgets mean you can catch mistakes, make comments, and encourage one another as you iterate your Kubernetes templates.