As the organization is shifting towards micro-service-oriented application development, a question comes to every system administrator: "What should I prefer to make my container environment steadfast and easily manageable?" The answer to this question is Kubernetes. This article will let you know how Kubernetes allows fast-growing containers to scale and manage quickly.
Containerization in software development –
Containerization has become a trending approach to application development. Packing up or encapsulating the application's code and dependencies helps the application run consistently on any infrastructure. The container system helps in isolating the software from its surrounding environment. Different components of an application intended to deliver a single task are bundled together into a container image. The container then gets executed via container engines like Docker.
Containerization technology is maturing exponentially. It leads to fathomable benefits for both the operations team and the developers. A well-architected container environment allows a service to run in a separate secure space that is stable and resistant to intrusion. But the containerization technology comes with perplexity. The complication lies in how to manage these large sets of containers. Also, containers get spun up temporarily when the application is in its peak usage. That is where system administrators prefer to leverage an orchestration through Kubernetes to keep the containers aligned without much admin intervention.
Kubernetes manages the container –
Kubernetes is an open-source orchestration system for containers. Google developed and pioneered Kubernetes. It later donated Kubernetes to the Cloud Native Computing Foundation. Kubernetes helps in easy scaling, deployment, and managing of containerized applications through automation. It supports container management through abstraction, providing the users with a holistic environment detailing. As an orchestrator, it schedules the container in clusters and helps in managing the workloads as intended. Instead of monitoring each container independently, the administrator can assort the containers into logical units (pods). The operations team then assigns these to small groups to manage these Kubernetes clusters.
Apart from deployment and managing container environments, Kubernetes renders automation capabilities also. Kubernetes clusters also yield storage services with advanced security. Kubernetes cluster can also perform self-monitoring. If a node goes down, Kubernetes's automation system detects the fault and restarts the node; otherwise, raise a warning. Developers can deploy a stateless or stateful application or can launch more than one instance. The operations team then needs to install Kubernetes to operate those similar instances under one Kubernetes cluster. Through Kubernetes, developers and operations teams can employ Kubernetes' computational resources to a maximum level.
Some Major Benefits of Kubernetes –
- Flexibility: Kubernetes offers portability with a faster deployment time. It means enterprises can leverage multiple cloud providers if the usage growth hikes without re-architecting the infrastructure.
- Reduce hardware cost: Implanting Kubernetes for managing the containers can significantly reduce the overall cost of hardware by pushing more efficient hardware.
- Scalability: Kubernetes allows running containers on more than one public cloud or in virtual machine environments. Developers can deploy their code almost everywhere. The way development & deployments take place these days got radically changed through the use of Kubernetes. It can scale operationalizing containers, particularly in harmony with microservices and multiple cloud providers.
- Open-source orchestration system: Kubernetes is open-source. Thus, developers can take advantage of the vast ecosystem & support team. The DevOps team can also work smoothly without any vendor lock-in issues.
- Availability: Kubernetes use automation services for managing the containers with high availability. Its availability reflects in both infrastructure and application levels. Kubernetes adds a reliable storage layer to assure that the stateful workloads are always available.
- Multi-cloud capability: The flexibility and portability feature of Kubernetes comes with an added benefit. It can manage workloads that run on a single cloud plus when stretched across multiple clouds. Many businesses are pursuing the multi-cloud strategy. Unlike other orchestrators, Kubernetes is robust enough to go above and beyond when it caters to multi-cloud capability.
- Market leader: The adoption of Kubernetes in the enterprise is rising exponentially. It is no longer a community developer's project. According to a survey, more than 59% of the production system runs Kubernetes. It is also popular because it has an extensive ecosystem of interrelated software projects. These projects help in extending the functionality to reap more business benefits.
Kubernetes is a powerful orchestrator because of its architecture. So, if you find yourself amid many containers and want to manage them efficiently, use Kubernetes. This intuitive & sensible tool will help in managing container environments. It also has a more imposing impact on the cloud landscape. If you are looking to deploy your software development on the cloud, E2E Cloud can provide you with the best solution. You can also enjoy managing containers through Kubernetes available on E2E cloud.
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