All articles tagged with Orchestration
Stop over-engineering your stack. We compare K8s, K3s, and Swarm with a focus on latency, storage IOPS for etcd, and Norwegian data sovereignty compliance in 2025.
Stop defaulting to vanilla Kubernetes. We benchmark K8s, K3s, and Nomad on Norwegian VPS infrastructure to define what actually delivers ROI in 2025.
Stop running fragile AI agents on your laptop. A battle-hardened guide to deploying resilient, stateful agent swarms using Docker, Pgvector, and NVMe-backed infrastructure in Norway.
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 over-engineering your infrastructure. We benchmark Kubernetes, K3s, and Docker Swarm on high-performance NVMe VPS to find the pragmatic choice for 2024.
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.
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.
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.
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 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.
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.
Stop overengineering your infrastructure. We benchmark the operational overhead of Kubernetes, K3s, and Docker Swarm on NVMe VPS to determine what actually makes sense for production workloads in Norway.
A pragmatic analysis of container orchestration platforms for European enterprises. We evaluate Kubernetes, Docker Swarm, and Nomad through the lens of TCO, GDPR compliance, and infrastructure performance on Norwegian soil.
Stop over-engineering your stack. A battle-hardened comparison of container orchestrators for Norwegian infrastructure, focusing on latency, storage IOPS, and operational reality.
Stop over-engineering your infrastructure. We analyze the trade-offs between K8s complexity and pragmatic alternatives like Nomad, specifically for the Norwegian market where data sovereignty and latency matter.
We strip away the hype to compare the top container orchestrators of 2023. Learn why disk I/O latency is the silent killer of Kubernetes clusters and how local Norwegian infrastructure solves the Schrems II compliance nightmare.
A battle-hardened comparison of container orchestrators in 2023. We analyze resource overhead, complexity trade-offs, and why underlying infrastructure like NVMe VPS determines your cluster's actual performance.
Stop defaulting to Kubernetes. We analyze the trade-offs between K8s, Swarm, and Nomad for Nordic infrastructure, focusing on overhead, latency, and the critical role of underlying hardware.
Stop following the hype train. We compare K8s 1.28, Swarm, and Nomad based on raw performance, overhead, and maintenance reality. Learn why underlying hardware latency kills your cluster before the scheduler even wakes up.
Stop following the hype. We benchmark Kubernetes, Docker Swarm, and Nomad on bare-metal performance, complexity, and operational overhead. Learn which orchestrator actually fits your architecture before you burn your budget.
Stop following resume-driven development. We benchmark the three major container orchestrators on Norwegian NVMe infrastructure to determine what actually works for production workloads in 2023.
Stop over-engineering your infrastructure. A battle-hardened comparison of K8s, Swarm, and Nomad for Norwegian DevOps teams, focusing on latency, compliance, and raw NVMe performance.
A no-nonsense benchmark of container orchestrators. We dissect the trade-offs between complexity and control, focusing on latency, compliance, and why raw NVMe performance is the only metric that matters for etcd stability.
A battle-hardened comparison of container orchestrators for Norwegian infrastructure. We dissect latency, complexity, and why your underlying VDS storage speed defines your cluster's stability.
Stop defaulting to Kubernetes. We benchmark Docker Swarm, K8s 1.24, and Nomad on Norwegian infrastructure to find the best balance of complexity, compliance, and performance.
We benchmark Kubernetes 1.24, Docker Swarm, and HashiCorp Nomad on NVMe-backed infrastructure. Discover which orchestrator survives the latency requirements of the Norwegian market without blowing your TCO.
A brutally honest comparison of container orchestration tools. We analyze complexity, performance, and why your underlying hardware—specifically NVMe storage—dictates cluster stability more than your YAML files.
It's 2022. Do you really need Kubernetes, or is it just resume-driven development? We benchmark orchestration tools on Norwegian infrastructure, focusing on latency, Schrems II compliance, and raw NVMe performance.
It's late 2021. The Log4Shell fires are mostly out. Now, let's talk about the infrastructure that actually runs your containers. We benchmark Kubernetes, Docker Swarm, and Nomad on Nordic NVMe VPS infrastructure.