All articles tagged with ["Kubernetes"
A battle-hardened guide to implementing Cilium and eBPF without destroying your application performance. We strip away the marketing fluff to focus on mTLS, GDPR compliance, and why underlying hardware I/O determines your mesh's survival.
Stop guessing where your latency spikes come from. We break down how to deploy Istio on bare-metal-performance VPS in Norway, handling mTLS and canary releases without the fluff.
A battle-hardened guide to deploying a Service Mesh in 2025. We cover mTLS compliance for Norwegian standards, resource optimization on KVM, and why your underlying hardware matters more than your YAML config.
Service Meshes like Istio provide observability and security but demand significant resources. Learn how to implement mTLS and circuit breaking without killing your latency, specifically tailored for Norwegian compliance standards.
A deep dive into K8s networking internals for Norwegian infrastructure teams. We cover CNI selection, eBPF optimization, and why underlying hardware latency determines your cluster's fate.
Stop over-engineering your infrastructure. We benchmark Kubernetes vs. Docker Swarm vs. Nomad based on latency, complexity, and local Norwegian compliance needs. Learn which orchestrator fits your workload before you burn your budget.
Stop defaulting to K8s. We benchmark the big three orchestrators on bare-metal KVM performance, analyze overhead, and determine which one actually fits your Norwegian data compliance needs.
Stop over-engineering your infrastructure. We benchmark Kubernetes, K3s, and Docker Swarm on high-performance NVMe VPS to find the pragmatic choice for 2024.
Default K8s networking is a recipe for latency and security holes. We dissect CNI choices (Cilium vs Calico), the Gateway API shift, and how to optimize packet flow specifically for Norwegian infrastructure.
A battle-hardened comparison of container orchestrators for Norwegian infrastructure. We analyze overhead, latency, and why fast NVMe storage is non-negotiable for etcd stability.
A battle-hardened guide to debugging K8s packet flows, choosing the right CNI in 2024, and understanding why underlying hardware defines your cluster's true latency.
A battle-hardened guide to debugging Kubernetes networking. We cover eBPF implementation, CoreDNS optimization, and why underlying hardware in Oslo dictates your cluster's fate.
A deep dive into optimizing Kubernetes networking for high-performance workloads. We analyze CNI choices, Gateway API implementations, and why underlying hardware defines your overlay network's success.
A battle-hardened comparison of container orchestration tools for 2024. We analyze performance overhead, etcd latency requirements, and why running K3s on NVMe-backed VDS in Norway might be your superior alternative to hyperscaler managed K8s.
Kubernetes isn't a silver bullet. We benchmark K8s, Nomad, and Swarm against the unique latency and compliance constraints of the Norwegian hosting market to determine the true TCO for DevOps teams.
Stop over-engineering your infrastructure. We benchmark Kubernetes, K3s, and Docker Swarm on Norwegian metal to see what actually handles the load without bankrupting your latency budget.
Default Kubernetes networking is a ticking time bomb for latency and security. We dissect CNI choices, eBPF implementation, and Gateway API transitions for Norwegian infrastructure.
Kubernetes networking is often treated as magic until it breaks. We dissect the packet flow, compare CNIs like Cilium vs. Calico, and explain why underlying VDS performance defines your cluster's stability in 2024.
Microservices are great until network chaos sets in. Learn how to implement a Service Mesh (Istio/Linkerd) without destroying performance, utilizing CoolVDS's high-performance NVMe infrastructure for the specific needs of the Norwegian market.
A battle-hardened comparison of container orchestrators in September 2024. We analyze the trade-offs between K8s complexity and Swarm simplicity, focusing on latency, IOPS, and data sovereignty within the Norwegian hosting market.
A battle-hardened comparison of container orchestrators for Norwegian infrastructure. We cut through the hype to analyze latency, complexity, and why your underlying VPS hardware dictates your cluster's survival.
Standard containers share a kernel, making them a security liability for high-compliance workloads. Learn how to implement Kata Containers v3 on Kubernetes for VM-grade isolation without sacrificing agility, specifically tailored for Norwegian privacy standards.
Implementing a Service Mesh is a trade-off between observability and raw latency. Here is how to deploy Istio correctly in 2024 without melting your CPU credits, specifically tailored for the Nordic infrastructure landscape.
A battle-hardened comparison of container orchestrators in 2024. We analyze the trade-offs between Kubernetes, Docker Swarm, and Nomad, specifically focusing on storage I/O requirements, latency implications for Norwegian infrastructure, and why the underlying metal makes or breaks your cluster.
Stop over-engineering your infrastructure. A battle-hardened comparison of container orchestrators for Norwegian workloads, focusing on latency, cost, and the specific hardware requirements of etcd.
A battle-hardened look at K8s networking internals. We dissect CNI choices, eBPF performance, and why underlying hardware (VDS) matters for low-latency Nordic deployments.
Stop paying the 'managed tax'. A battle-hardened comparison of Kubernetes, Nomad, and Swarm, tailored for Norwegian CTOs demanding low latency and GDPR compliance.
Stop over-engineering your stack. We benchmark Kubernetes vs. Docker Swarm vs. Nomad on Norwegian infrastructure, analyzing latency, overhead, and the absolute necessity of high-IOPS NVMe for etcd stability.
Stop over-engineering your stack. A battle-hardened comparison of container orchestrators for Norwegian DevOps teams, focusing on latency, compliance, and raw NVMe performance.
A battle-hardened comparison of container orchestrators. We benchmark Kubernetes, Nomad, and Docker Swarm on Norwegian infrastructure to see which actually delivers uptime without the complexity hangover.