In this Kubernetes Tutorial you’ll learn all the basics to advanced concepts like Kubernetes service , Kubernetes cluster construction , Kubernetes deployment , Kubernetes Architecture , etc. This free tutorial on Kubernetes will provide all the essential information needed to understand and work with Kubernetes, including the use of APIs, installation, and Kubernetes cluster construction. Whether you are a beginner or an expert, this tutorial will cover all the necessary details to help you learn and understand Kubernetes.
Kubernetes is a tool that helps us to run and manage applications in containers. It was developed by Google Lab in 2014, and it is also known as k8s. It is an open-source container orchestration platform that automates the deployment, management, and scaling of container-based applications in different kinds of environments like physical, virtual, and cloud-native computing foundations.

Containers are isolated from each other so that multiple containers can run on the same machine without interrupting anyone else. It allows us to deploy and manage container-based applications across a Kubernetes cluster of machines.
Prerequisites for this Kubernetes Tutorial
Before diving into Kubernetes, it’s essential to have a solid understanding of certain concepts and technologies. Here are some prerequisites:
- Have good understanding of Container concept & Container Management Tool like Docker or Podman.
- Understanding of distributed system.
- Understanding of REST API
- Basic understanding of YAML
Basics of Kubernetes
Kubernetes Basics will teach you how to manage these “containers” effectively. Kubernetes is like a ship captain for these containers, organizing and placing them on multiple computers (like a ship carrying many containers). This introduction will explain key Kubernetes ideas like Pods, Services, and Deployments. You’ll learn how Kubernetes keeps your containerized applications running smoothly and efficiently
Advanced Kubernetes
In this Advanced Kubernetes section we will understand how to manage complex containerized applications. This section assumes you’re familiar with Kubernetes basics and explores powerful features for scaling, security, and automation. We’ll delve into concepts like deployments with rollbacks and health checks, advanced networking configurations for service communication, and tools for managing storage and persistent data for your containerized applications.
Why Do We Need Kubernetes?
There are several reasons to learn Kubernetes like easy scaling of applications, self-healing, portability, and automation. It is very helpful for running microservices and distributed systems.
For example : You have a couple of applications to deploy so, you can package it into a container and run it on a server containing a Docker engine or any other container engine. You package the application into a container using a Docker file and host it on a port for the external world to access it.
But there is a drawback is that it is only running on a single server so, if at that point any failure occurs it becomes an application failure, to handle the single point of failure google introduced Kubernetes to scale applications.
Kubernetes Architecture
Below you will find the image that describe the architecture of Kubernetes.
Features of Kubernetes
- Consistent Development, management, and deployment
- Container-based infrastructure
- Utilization of resources in higher density
- Each component is like a separate unit
- Application-centric infrastructure
- Auto scalability
- Consistency is maintained across testing and development
Advantages of Kubernetes
- Container Orchestration: Kubernetes automates the deployment, scaling, and management of containerized applications, ensuring efficient resource utilization and seamless deployment updates.
- Scalability: Kubernetes enables horizontal scaling of applications by adding or removing container replicas based on demand, ensuring optimal performance during peak loads.
- High Availability: With automated health checks and self-healing capabilities, Kubernetes ensures that applications remain available and responsive, reducing downtime and enhancing reliability.
- Fault Tolerance: Kubernetes manages application failures by automatically restarting containers or shifting traffic to healthy instances, improving overall application resilience.
- Flexibility: Supports multi-cloud and hybrid-cloud environments, allowing deployment across various infrastructure providers and on-premises data centers without vendor lock-in.
- Resource Efficiency: Efficiently manages computing resources like CPU and memory, optimizing utilization and reducing costs by scaling resources based on application demands.
- Automated Operations: Simplifies complex operational tasks such as load balancing, storage orchestration, and networking configuration through declarative APIs and automation.
Conclusion
This tutorial provided a comprehensive overview of Kubernetes, including its history, key features, and how it can be used to manage and deliver containerized applications. We covered the use of Kubernetes APIs, installation, and cluster construction. Whether you are new to Kubernetes or an experienced user, this tutorial will provide you with the information you need to understand and work with this powerful open-source platform. Kubernetes is widely used in the industry and continues to be a popular choice for managing containerized applications in a production environment. Keep learning and experimenting with Kubernetes to discover its full potential.
Kubernetes Tutorial – FAQ
How does Kubernetes work?
Kubernetes works by allowing users to define how their applications should run and then automatically handling the deployment, scaling, and management of those applications based on the defined specifications.
What are the key benefits of using Kubernetes?
Some key benefits of using Kubernetes include increased operational efficiency, improved resource utilization, automatic scaling of applications, and enhanced portability across various infrastructure environments.
Is Kubernetes suitable for small businesses?
Yes, Kubernetes can be beneficial for small businesses as it provides a scalable and efficient way to manage containerized applications, enabling them to run seamlessly regardless of the scale.
Are there any alternatives to Kubernetes?
Yes, there are other container orchestration platforms like Docker Swarm and Apache Mesos, but Kubernetes is one of the most popular and widely adopted solutions due to its robust feature set and active community support.
Is Kubernetes a Docker?
Docker is a container runtime, Kubernetes is a platform for running and managing containers from many container runtimes.
Take your DevOps skills to the next level with our DevOps Engineering - Planning to Production course. From understanding the core principles of DevOps to implementing continuous integration and delivery pipelines, this course provides a comprehensive, self-paced learning experience.
Take the Three 90 Challenge! Complete 90% of the course in 90 days, and earn a 90% refund. Stay motivated, track your progress, and challenge yourself to become a certified DevOps expert. Join now and start your journey toward mastering DevOps engineering!
Similar Reads
Kubernetes Tutorial
In this Kubernetes Tutorial you’ll learn all the basics to advanced concepts like Kubernetes service , Kubernetes cluster construction , Kubernetes deployment , Kubernetes Architecture , etc. This free tutorial on Kubernetes will provide all the essential information needed to understand and work wi
7 min read
Introduction to Kubernetes
Application Deployment
What are Kubernetes Containers?
Kubernetes is an open-source container orchestration framework that was originally developed by Google. Container orchestration is automation. It can facilitate you to deploy the identical application across different environments like physical machines, virtual machines cloud environments, or perha
15 min read
Kubernetes - Introduction to Container Orchestration
In this article, we will look into Container Orchestration in Kubernetes. But first, let's explore the trends that gave rise to containers, the need for container orchestration, and how that it has created the space for Kubernetes to rise to dominance and growth. The growth of technology into every
4 min read
Kubernetes - Images
Pre-requisite:- Kubernetes A container image is used to represent binary data that is being used to encapsulate an application and all its software dependencies. Container images can be represented as executable software bundles that run standalone and make very defined assumptions about their runti
3 min read
Kubernetes - Jobs
Pre-requisite: Kubernetes In the Kubernetes world, jobs are considered an object to act as a supervisor or controllers of a task. The Kubernetes job will create a pod, monitor the task, and recreate another one if that pod fails for some reason. Upon completion of the task, it will terminate the pod
4 min read
Kubernetes - Labels & Selectors
An open-source container management platform called Kubernetes automates the deployment, scaling, descaling, and load balancing of containers (also called a container orchestration tool). It was created by Google in Golang and has a sizable community as a result of that. Google eventually donated it
5 min read
Kubernetes - Namespaces
Kubernetes Namespace is a mechanism that enables you to organize resources. It is like a virtual cluster inside the cluster. A namespace isolates the resources from the resources of other namespaces. For example, You need to have different names for deployments/services in a namespace but you can ha
9 min read
Kubernetes - Node
Kubernetes Nodes are the Worker or master machines where the actual work happens. Each Kubernetes node has the services required to execute Pods and is controlled by the Control Plane. Each Kubernetes Node can have multiple pods and pods have containers running inside them. 3 processes in every Node
13 min read
Kubernetes - NodePort Service
NodePort service in Kubernetes is a service that is used to expose the application to the internet from where the end-users can access it. If you create a NodePort Service Kubernetes will assign the port within the range of (30000-32767). The application can be accessed by end-users using the node's
5 min read
Kubernetes - ClusterIP vs NodePort vs LoadBalancer
Three main service types are used in Kubernetes networking: ClusterIP, NodePort, and LoadBalancer. Each has a specific function in controlling external access and service-to-service communication. Comprehending their distinctions is essential for efficiently coordinating applications. This article e
8 min read
Kubernetes - Services
Software deployment, scaling, and management are all automated using Kubernetes, an open-source container orchestration system. K8s is another name for Kubernetes. Kubernetes was initially developed by Google and is now managed by the Cloud Native Computing Foundation. Despite the fact that it now s
3 min read
Kubernetes Pods: How to Create and Manage Them
Kubernetes is an open-source container orchestration system mainly used for automated software deployment, management, and scaling. Kubernetes is also known as K8s. Kubernetes was originally developed by Google, but it is now being maintained by the Cloud Native Computing Foundation. It was original
13 min read
How to Run Shell Commands in Kubernetes Pods or Containers
In Kubernetes, we create pods by adding an extra layer of information on containers. This Kubernetes in short is known as K8s, an open-source container orchestration tool developed by Google. It is used to orchestrate the containers for bringing Agility in software deployment through scaling, and ma
6 min read
Kubernetes - Creating Multiple Container in a Pod
Pre-requisite:- Kubernetes Kubernetes is a container management tool and it automates container deployment, load balancing, and container scaling. It is open-source and developed by Google in 2014 and written in Golang. All cloud providers adopt Kubernetes. It is scheduled runs and manages isolated
3 min read
Kubernetes - Replication Controller
With the help of the open-source container orchestration technology Kubernetes, software deployment, scalability, and management are mostly automated. Another name for Kubernetes is K8s. Google created Kubernetes, which is now overseen by the Cloud Native Computing Foundation. Even though it now wor
7 min read
Kuberneters - Difference Between Replicaset and Replication Controller
Pre-requisite: Kubernetes Kubernetes is also known as K8s is an open-source container orchestration tool developed by google which is used for automating software deployment, scaling, and management. Currently, it is being maintained by the cloud native computing foundation(CNCF). K8s has two versio
4 min read
What is Kubernetes Deployment?
Kubernetes is an open-source Container Management tool that automates container deployment, container scaling, descaling, and container load balancing (also called as container orchestration tool). It is written in Golang and has a huge community because it was first developed by Google and later do
10 min read
Configmaps
Kubernetes - ConfigMaps
An open-source container orchestration system called Kubernetes is primarily used for automated software deployment, scaling, and management. Another name for Kubernetes is K8s. Originally developed by Google, Kubernetes is now managed by the Cloud Native Computing Foundation. Although it now suppor
10 min read
Kubernetes - Create Config Map From Files
Pre-requisite: Kubernetes While creating a manifest file in Kubernetes, we can define environment variables. However, when you have a lot of manifest files, it will become difficult to manage the environment data stored in various manifest files. To overcome this issue, we can manage environment dat
2 min read
Kubernetes - Create ConfigMap From YAML File
A ConfigMap is a dictionary consisting of non-confidential data. Its primary role is to keep the configuration separate from the container image. ConfigMap can be created in different ways. This article will cover the declarative approach to creating ConfigMap from the YAML file. Example: apiVersion
1 min read
Kubernetes - Config Map From Directory
Pre-requisite:- Kubernetes Software deployment, scalability, and administration are mostly automated using Kubernetes, an open-source container orchestration framework. K8s is another name for Kubernetes. Kubernetes was initially developed by Google and is now managed by the Cloud Native Computing F
2 min read
Kubernetes - Injecting ConfigMap as Files
Pre-requisite:- Kubernetes The automated deployment, scaling, and administration of software using a system called Kubernetes, an open-source container orchestration tool. K8s is another name for Kubernetes. Kubernetes was initially developed by Google and is now managed by the Cloud Native Computin
3 min read
Kubernetes - Injecting ConfigMap in Pods
Pre-requisite: Kubernetes Leveraging the open-source container orchestration engine Kubernetes to automate the deployment, scalability, and management of applications. Another name for Kubernetes is K8s. Google originally created Kubernetes, which is currently overseen by the Cloud Native Computing
3 min read
Scaling and Updating Applications
Kubernetes - Service DNS
An open-source container orchestration system called Kubernetes is primarily employed for the automated deployment, scaling, and management of software. Another name for Kubernetes is K8s. Initially created by Google, Kubernetes is currently maintained by the Cloud Native Computing Foundation. Altho
11 min read
Additional Topics
What is Kubernetes API ?Complete Guide
Kubernetes API is an application that serves Kubernetes functionality through a RESTful interface and stores the state of the cluster via HTTP. Users can directly interact with the Kubernetes API or via tools like kubectl. It supports retrieving, creating, updating, and deleting primary resources vi
14 min read
Kubernetes - Taint and Toleration
A pod is a group of one or more containers and is the smallest deployable unit in Kubernetes. A node is a representation of a single machine in a cluster (we can simply view these machines as a set of CPU and RAM). A node can be a virtual machine, a physical machine in a data center hosted on a clou
6 min read
Kubernetes Resource Model (KRM) and How to Make Use of YAML?
Here we will explain how YAML can simplify system management and automation of most processes so that Kubernetes is a convenient working system. Basic Kubernetes Models: KRM and Everything-as-CodeAccording to Kubernetes co-founder Brian Grant, Kubernetes is very convenient thanks to the Kubernetes R
6 min read
Installing Private Git Server on K8s Cluster with Gitea and AKS
In this article, we are going to install a self-hosted Gitea server on top of Azure Kubernetes Service with Helm and set up a git repo. Having a private Git server might be beneficial these days. Gitea is a community-managed Git-compatible lightweight code hosting solution written in Go. It is publi
4 min read
Enable Remote Debugging For Java Application Deployed in Kubernetes Environment
During Development, developers have to debug their applications to resolve code problems. In order to debug a java application which is deployed on remote machine in a Kubernetes cluster, first developer has to do some steps to enable its application ready for debugging. Below are the manual steps t
2 min read
How to Enable JMX For Java Application Running in the Kubernetes Cluster?
Many times we want to monitor our application's CPU utilization, background thread behavior, and most importantly memory consumptions for tasks that deal with loads for data (500MB - 1GB) or much more data. Such monitoring helps to find which operation is causing heavy CPU or Memory utilization and
3 min read