Found 96 results for: kubernetes
A battle-hardened guide to optimizing Kubernetes 1.9 networking. We explore CNI choices, enabling IPVS mode, and why low-latency NVMe storage in Norway is critical for etcd stability.
In the heat of the 2017 container wars, choosing between Kubernetes and Docker Swarm determines your infrastructure's fate. We analyze performance, complexity, and why underlying hardware like NVMe storage is critical for cluster stability.
It is May 2017. The container wars are raging. We benchmark Kubernetes 1.6 against Docker Swarm Mode to see which orchestrator offers the best balance of sanity, performance, and persistence on Norwegian infrastructure.
Google and IBM just dropped Istio, changing the microservices game. We dive into the sidecar pattern, analyze the resource overhead for your VPS, and show you how to deploy this alpha release on CoolVDS infrastructure.
We compare Kubernetes 1.6 and Docker Swarm Mode for production workloads. Discover why underlying KVM infrastructure and NVMe storage are critical for container performance in the looming GDPR era.
Moving Kubernetes from minikube to bare metal production is where the real pain begins. We cover etcd latency, NVMe requirements, and Norwegian compliance in the v1.6 era.
A battle-hardened guide to Kubernetes networking in early 2017. We dissect CNI plugins, debug iptables hell, and explain why underlying VPS latency determines cluster stability.
A battle-hardened guide to Pod-to-Pod communication, CNI plugins, and optimizing iptables in 2017. Learn why infrastructure latency makes or breaks your cluster.
A battle-hardened look at Kubernetes networking primitives, CNI choices, and why low-latency infrastructure is non-negotiable for stability. Written for the DevOps engineer debugging iptables at 3 AM.
We benchmark the complexity and performance of Kubernetes 1.5 against Docker Swarm Mode. Learn which orchestrator fits your Norwegian infrastructure stack before the GDPR deadline hits.
Packet loss, MTU mismatches, and iptables hell. We dissect the reality of running Kubernetes networking in production and why your underlying VPS choice dictates your cluster's stability.
Moving from monoliths to microservices introduces a new nightmare: service discovery and latency management. In this guide, we explore the emerging 'Service Mesh' concept using Linkerd to handle inter-service communication without rewriting your application code.
Microservices solve organizational scaling but introduce network chaos. Here is how to implement the sidecar pattern using Linkerd to handle retries, timeouts, and circuit breaking without touching your application code.
Kubernetes 1.4+ networking isn't magic—it's a complex beast of iptables, CNI plugins, and encapsulation. We dissect the flow of a packet, compare Flannel vs. Calico, and explain why your underlying VPS I/O is the hidden bottleneck for etcd.
We benchmark Docker 1.12 Swarm Mode against Kubernetes 1.4 for high-availability Nordic infrastructure. Stop guessing and start architecting for stability.
A battle-hardened look at Kubernetes 1.4 networking. We dissect the CNI, analyze the iptables mess created by kube-proxy, and explain why your underlying VPS infrastructure dictates your cluster's latency.
Kubernetes networking isn't magic; it's a labyrinth of iptables and routing tables. We break down CNI plugins, overlay networks, and why your underlying hardware matters more than your config in 2016.
A battle-hardened comparison of the new Docker Swarm Mode and Kubernetes 1.4. We analyze performance, complexity, and why your underlying VPS IOPS matter more than your scheduler.
As 2016 draws to a close, the container orchestration battle heats up. We benchmark Docker Swarm Mode against the new Kubernetes 1.4 to see which stack handles production loads without melting your Norwegian VPS.
A deep dive into the chaotic world of Kubernetes networking, CNI plugins, and iptables hell. Learn how to optimize pod communication without sacrificing latency, specifically tailored for Norwegian infrastructure.
It is late 2016, and the battle for container dominance has shifted from the runtime to the cluster. We benchmark Kubernetes, Docker Swarm, and Mesos to see which solution actually survives production workloads in the Norwegian market.
Kubernetes networking isn't magic—it's complex Linux routing. We dive into the CNI chaos, overlay network latency, and why your choice of underlying KVM infrastructure in Norway matters for production workloads.
A battle-hardened look at Kubernetes 1.3 networking, CNI plugins, and why overlay networks might be killing your latency. Learn how to configure kube-proxy properly on Norwegian infrastructure.
Kubernetes networking is where most clusters fail. In this deep dive, we dissect the CNI landscape of 2016, compare Flannel vs. Calico, and explain why underlying virtualization choice defines your packet throughput.
A battle-hardened look at the Kubernetes 1.3 network model. We break down CNI, overlay trade-offs, and why low-latency infrastructure is critical for microservices in the Nordic region.
Master the complexities of the Kubernetes networking model, from CNI plugins like Flannel and Calico to debugging iptables mode. Learn why infrastructure performance makes or breaks your cluster.
We benchmark the complexity and performance of Kubernetes 1.2 against Docker Swarm and Mesos. Discover why raw infrastructure latency matters more than your orchestration tool choice for Nordic deployments.
A battle-hardened guide to Pod networking, CNI choices, and debugging iptables in Kubernetes 1.2. Learn how to minimize latency on Norwegian VPS infrastructure without relying on public cloud load balancers.
A battle-hardened look at Kubernetes 1.2 networking, from the chaos of iptables to the latency costs of overlay networks like Flannel. Learn how to debug packet drops and why your underlying VPS hardware in Norway makes or breaks your cluster.
Kubernetes 1.2 is changing the game with iptables-based proxies, but the networking model remains the most complex barrier to production. We dissect the packet flow from Pod-to-Pod, analyze Flannel vs. Weave, and explain why your underlying VPS I/O is the bottleneck you aren't watching.