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The container ecosystem in late 2015 is a battlefield. We benchmark Docker Swarm against the newly released Kubernetes 1.1 to determine which tool belongs on your production servers in Norway.
Kubernetes 1.1 brings performance improvements, but networking remains a complex beast. We dissect overlay networks, the new iptables proxy mode, and why the recent Safe Harbor invalidation makes hosting in Norway critical.
With the recent release of Docker 1.9 and Swarm 1.0, the container orchestration battle has intensified. We benchmark Swarm against Google's Kubernetes and Apache Mesos to see which solution truly belongs in your production stack—and why your underlying hardware might be the bottleneck you ignored.
Kubernetes 1.0 has arrived, but the flat IP model is a headache on traditional VPS. We dive deep into Flannel, VXLAN performance, and why your underlying kernel matters more than you think.
Navigating the nascent container orchestration wars of 2015. We benchmark Docker Swarm, the newly released Kubernetes 1.0, and Apache Mesos to see which stack belongs on your Norwegian VPS infrastructure.
Kubernetes 1.0 is finally here, but the flat-networking model is causing headaches for early adopters. We dissect the performance costs of Flannel vs. Weave and why your underlying VPS architecture decides your cluster's fate.
Docker is great, but running it in production is a battlefield. We benchmark Kubernetes v1.0, Docker Swarm, and Mesos on high-performance KVM slices to see which orchestrator actually survives real-world traffic.
Docker is taking over the world, but running it in production is a battlefield. We benchmark the three leading orchestration contenders—Kubernetes, Mesos/Marathon, and Docker Swarm—and analyze why your underlying VPS architecture decides who wins.
Docker links are dead. As we approach the Kubernetes v1.0 release, we dissect the 'IP-per-Pod' model, configure Flannel overlays on Ubuntu 14.04, and explain why your underlying VPS architecture makes or breaks microservices performance.
The 'Docker run' honeymoon is over. We break down the current state of multi-host container orchestration, comparing Kubernetes, Docker Swarm, and Mesos for production environments in Norway.
Google's Kubernetes is changing how we orchestrate Docker containers, but the networking model is a headache for traditional sysadmins. We analyze the 'One IP Per Pod' model, configure Flannel manually, and explain why your kernel version matters.
Docker is standardizing builds, but production deployment remains the Wild West. We compare Mesos, the rising Kubernetes beta, and CoreOS Fleet to see which orchestrator deserves your root access.
It is May 2015. Docker containers are taking over development, but production deployment is still a minefield. We compare Kubernetes (Beta), Docker Swarm, and Mesos to see which one is ready for your Norwegian infrastructure.
Docker containers are changing how we deploy, but managing them across multiple hosts is a nightmare. We dive deep into Google's new Kubernetes project, setup a manual cluster on CentOS 7, and explain why KVM-based hosting like CoolVDS is mandatory for container security.
Docker links are broken. Discover how the new Kubernetes 'IP-per-pod' model uses overlays like Flannel to fix container networking, and why your underlying VPS architecture matters more than ever.
Tired of managing Docker links and port conflicts? We dive deep into the revolutionary 'Flat Network' model of Google's new Kubernetes project, setup Flannel overlay networks, and explain why your VPS virtualization choice makes or breaks this architecture.
Google's new Kubernetes project is rewriting the rules of cluster management. We dive deep into the networking primitives—namespaces, bridges, and overlays—that make multi-host Docker deployments possible today.
Docker v1.0 is here, but multi-host networking remains a nightmare. We analyze the "IP-per-Pod" model in Google's new Kubernetes project, dissect linux bridging, and explain why your underlying VPS architecture determines if your cluster flies or fails.
Docker 1.0 is here, but multi-host networking remains a nightmare. We dive deep into the pre-beta Kubernetes networking model, manual routing tables, and why you need KVM for the future of clusters.
Master Kubernetes deployment strategies from Rolling Updates to Canary releases. Learn how to minimize downtime and ensure GDPR compliance using high-performance Norwegian infrastructure.
Service meshes aren't just for resume padding; they are the difference between a 2:00 AM pager duty call and a self-healing system. We dissect a production-grade Istio setup on Kubernetes, specifically tailored for low-latency Norwegian infrastructure.
Container isolation is a myth without proper configuration. We dismantle default settings, implement 'Zero Trust' runtime security, and align Kubernetes clusters with strict Norwegian data sovereignty laws.
Container isolation is a myth. Learn how to secure your Kubernetes and Docker environments against runtime threats while staying compliant with strict Norwegian data privacy regulations.
Stop manually applying manifests. Learn how to implement a rigid, audit-ready GitOps workflow using ArgoCD and Kubernetes on high-performance infrastructure, ensuring compliance with Norway's Datatilsynet requirements.
Container isolation is a myth if your config is lazy. From dropping capabilities to NIS2 compliance in Norway, here is the battle-hardened guide to securing Docker and Kubernetes workloads in 2025.
Microservices trade code complexity for network complexity. This guide covers implementing Istio on Kubernetes for observability and mTLS, specifically tailored for high-performance Norwegian infrastructure.
Stop manual deployments. Learn how to architect a bulletproof GitOps workflow using ArgoCD and Kubernetes on high-performance NVMe infrastructure, tailored for the Norwegian regulatory landscape.
Stop debugging latency spikes with `tcpdump`. Learn how to deploy Istio correctly on Kubernetes to enforce mTLS, automate canary releases, and regain sanity in your distributed systems. Optimized for high-performance Norwegian infrastructure.
Manual deployments are a liability. Learn how to architect a bulletproof GitOps workflow using ArgoCD and Kubernetes, tailored for Norwegian compliance standards and high-performance infrastructure.