We’re pleased to announce that the Komodor platform has published an Amazon Elastic Kubernetes Service (Amazon EKS) Blueprints CDK Add-On. Amazon EKS is a managed Kubernetes service that streamlines the deployment and scaling of cloud-based or on-prem K8s clusters.

In Part 1 of this series, you learned the core components of Kubernetes, an open-source container orchestrator for deploying and scaling applications in distributed environments. You also saw how to deploy a simple application to your cluster, then change its replica count to scale it up or down. In this article, you’ll get a deeper look at the networking and monitoring features available with Kubernetes.

Put simply, Kubernetes is an orchestration system for deploying and managing containers. Using Kubernetes, you can operate containers reliably across different environments by automating management tasks such as scaling containers across Nodes and restarting them when they stop. Kubernetes provides abstractions that let you think in terms of application components, such as Pods (containers), Services (network endpoints), and Jobs (one-off tasks).

If you’ve been anywhere in the DevOpsphere in recent times, you have certainly encountered the Platform Engineering vs. DevOps vs. SRE debates that are all the rage. Is DevOps truly dead?! Is Platform Engineering all I need?! Have I been doing it wrong all along? These have become more popular than the mono vs. multi-repo flame wars from a few years back.

A containerized approach to software deployment means you can deploy at scale without having to worry about the configuration of each unit. In Kubernetes, clusters do the heavy lifting for you—they’re the pooled resources that run the pods that hold your individual containers. You can divide each cluster by namespace, which allows you to assign nodes (ie the machine resources in a cluster) to different roles or different teams. Resource quotas limit what each namespace can use.

Reviewing the Current State of Infrastructure as Code (IaC), its Challenges, the Emergence of Crossplane, Adoption Difficulties, and the Road Ahead! Infrastructure as code (IaC) has become an indispensable practice for managing and deploying cloud-native applications. By defining infrastructure through code, developers can efficiently and consistently manage their infrastructure. In this post, we’ll delve into the state of IaC, the problems it poses, and the new approach offered by Crossplane.

Have you heard about eBPF? It’s the technology that’s set to transform the Kubernetes landscape. In this article, we’ll explore what eBPF is and why it’s poised to become the next big thing in Kubernetes. But here’s the catch – despite its game-changing potential, it seems that few people are truly aware of its impact. Let’s delve into the details and discover why you should care.

With the growing popularity of Kubernetes as a container orchestration platform powering the microservices revolution, comes greater complexity with managing, monitoring, and responding to incidents at scale. Challenges with real production environments include full visibility into your clusters and environment’s health, alongside real-time incident management and response.