All articles tagged with docker
Stop over-engineering your stack. A battle-hardened comparison of container orchestrators in 2025, focusing on latency, compliance, and why the underlying VDS architecture makes or breaks your cluster.
Stop watching progress bars. A battle-hardened guide to slashing build times, optimizing Docker layer caching, and leveraging Norwegian NVMe infrastructure for sub-minute deployments.
Stop debugging CI/CD by pushing commits. Learn how to implement portable, programmable pipelines using Dagger, Go, and high-performance NVMe infrastructure in Norway.
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.
Slow pipelines destroy developer flow. Learn how to cut build times by 60% using self-hosted runners, aggressive Docker caching, and NVMe infrastructure in Oslo. A guide for the impatient DevOps engineer.
Slow pipelines are the silent killer of engineering velocity. Learn how to optimize CI/CD I/O bottlenecks, configure self-hosted runners on NVMe infrastructure, and leverage local Oslo peering for instant registry pulls.
SaaS runners are killing your deployment velocity. Learn how to cut build times by 60% using self-hosted runners, Docker BuildKit caching, and high-performance NVMe infrastructure located in Oslo.
Navigating the trade-offs between orchestration complexity and operational costs in Norway's regulatory landscape. We benchmark Kubernetes, Docker Swarm, and Nomad on local NVMe infrastructure.
Default container configurations are a security disaster waiting to happen. We dismantle the myth of isolation, covering immutable infrastructure, eBPF runtime filtering, and why your host kernel choice determines your survival under GDPR pressure.
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 defaulting to K8s. We benchmark Kubernetes, Nomad, and Swarm on NVMe infrastructure to see what actually handles production loads in Norway without breaking the bank or violating GDPR.
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 running as root. A battle-hardened guide to container security, from dropping kernel capabilities to enforcing read-only filesystems, specifically tailored for Norwegian infrastructure.
Waiting 20 minutes for a deployment pipeline to finish isn't just annoying; it kills developer momentum. We dissect the hidden bottlenecks in CI/CDβfrom I/O wait times to network latencyβand show you how to slash build times using self-hosted runners in Oslo.
Stop over-engineering your infrastructure. We benchmark Kubernetes, K3s, and Docker Swarm on high-performance NVMe VPS to find the pragmatic choice for 2024.
Stop waiting 20 minutes for deployments. A battle-hardened guide to cutting build times using Docker layer caching, tmpfs optimization, and local Norwegian NVMe 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 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.
Stop watching the progress bar. We analyze how disk I/O and network latency strangle CI/CD performance and how to cut build times by 60% using proper caching strategies and NVMe-backed runners.
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.
Shared CI/CD runners are the silent killer of developer productivity. Learn how to cut build times by 60% using self-hosted runners, aggressive caching strategies, and raw NVMe power in Norway.
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.
Is your deployment pipeline bleeding time and money? We analyze how local self-hosted runners, NVMe storage, and Docker layer caching can cut build times by 60% for Norwegian engineering teams.
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.
Slow pipelines kill developer velocity. Learn to slash build times by 60% using self-hosted runners, aggressive layer caching, and dedicated NVMe storage in Oslo.
Your build pipeline isn't slow because of bad code; it's slow because your infrastructure is choking on I/O. Here is the battle-hardened guide to optimizing CI/CD throughput using NVMe storage, self-hosted runners, and proper caching strategies in a Norwegian regulatory context.
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.