Found 180 results for: Docker Image Builds
Your 15-minute build time is a hidden tax on engineering velocity. Learn how to cut CI/CD latency by 60% using self-hosted runners, Docker layer caching strategies, and local NVMe infrastructure in Norway.
Is your deployment pipeline an excuse for a coffee break? We dissect the I/O bottlenecks killing your build times, implement ephemeral Docker agents, and optimize Jenkins 2.0 pipelines for the Nordic infrastructure landscape.
Stop manually SSH-ing into production. Learn how to implement a fully automated 'commit-to-deploy' pipeline using Jenkins, Ansible 1.9, and Docker on high-performance NVMe infrastructure.
Slow builds kill developer momentum. We analyze how NVMe I/O, KVM isolation, and Norwegian data sovereignty (Schrems II) impact your CI/CD pipelines, with practical optimization strategies for GitLab CI and Docker.
Waiting 20 minutes for a build to deploy isn't a coffee break; it's a productivity killer. We dissect how disk I/O, network latency, and proper runner configuration in 2019 can slash build times by 60%.
Your deployment pipeline is the heartbeat of your infrastructure. If it skips a beat, production stalls. We analyze how I/O bottlenecks and network latency kill build times, and how to fix them before the GDPR deadline.
Shared runners are a trap for serious dev teams. Learn how to cut build times by 60% using self-hosted runners, optimized storage drivers, and Nordic infrastructure tailored for compliance.
Your developers cost 1,500 NOK an hour. Why are they watching progress bars? We dissect the I/O bottlenecks killing your pipelines and deploy a battle-tested GitLab CI optimization strategy using NVMe-backed runners in Oslo.
Container isolation is a myth if you stick to defaults. From dropping kernel capabilities to managing secrets without environment variables, here is the battle-tested guide to securing your infrastructure against runC exploits and privilege escalation.
Slow pipelines destroy developer velocity. Learn how to optimize GitLab CI/CD runners using local NVMe storage, proper caching strategies, and KVM isolation to reduce build times by 40% while staying GDPR compliant.
Slow pipelines are the silent killer of development velocity. We dissect the specific storage drivers, caching strategies, and infrastructure bottlenecks slowing down your builds, with a focus on Norwegian data sovereignty.
Waiting 30 minutes for a build to fail is a productivity killer. We dive into Jenkins 2.0 pipelines, Docker layer caching, and why NVMe storage is the secret weapon for Norwegian DevOps teams facing I/O bottlenecks.
Stop watching progress bars. A battle-hardened guide to optimizing Docker caching, solving I/O bottlenecks with NVMe, and keeping your pipeline compliant within Norway.
Manual server configuration is killing your uptime. Learn how to implement a 'Git as Source of Truth' workflow using GitLab CI, Ansible, and Docker on high-performance infrastructure.
Your build pipeline isn't slow because you lack CPU cores; it's slow because your disk I/O is choking on thousands of tiny writes. Here is how to diagnose wait times and fix them using RAM disks, Docker layer caching, and NVMe-backed architecture.
Is your Jenkins build queue moving slower than rush hour on Ring 3? We dissect the hidden I/O bottlenecks killing your deployment times and how to fix them with proper infrastructure tuning.
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 watching progress bars. Learn how to optimize GitLab CI runners using high-performance NVMe VPS infrastructure in Norway, ensuring GDPR compliance and raw speed.
Your developers are waiting on builds, not writing code. We dissect the hidden I/O latencies destroying your pipeline performance and how to fix them using KVM, NVMe, and proper caching strategies.
With the GDPR deadline less than two weeks away, manual server updates are a legal liability. Learn how to implement a strict GitOps workflow using Kubernetes 1.10 and GitLab CI to ensure total compliance and rapid disaster recovery on Norwegian infrastructure.
Is your deployment pipeline the bottleneck in your development lifecycle? Learn how to slash build times by 60% using KVM-isolated runners, NVMe storage, and proper caching strategies.
A battle-hardened guide to slashing build times in 2019. We analyze the impact of NVMe I/O on Docker layers, kernel tuning for Jenkins runners, and why hosting your pipeline in Oslo matters for GDPR compliance.
Your build pipeline isn't slow because of your code—it's likely your storage backend. We analyze how I/O bottlenecks strangle Jenkins and GitLab CI, and why the post-GDPR world demands local Norwegian infrastructure.
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.
Is your deployment pipeline bleeding time? We dissect I/O bottlenecks, Docker layer caching, and the critical impact of local NVMe storage on build velocity.
Container security isn't just about scanning images. It's about kernel isolation, network policies, and understanding why 'privileged: true' is a resume-generating event. A deep dive for Norwegian DevOps teams.
Stop relying on manual 'kubectl apply'. Learn how to architect resilient, compliant GitOps pipelines using ArgoCD and high-performance KVM infrastructure in the post-Schrems II era.
Manual deployments are a liability. We dissect a battle-tested GitOps workflow using ArgoCD and Kubernetes v1.18, tailored for Norwegian data compliance and high-availability setups.
Running containers as root is a recipe for disaster. This guide covers immutable infrastructure, eBPF runtime security, and why strict KVM isolation on CoolVDS is your last line of defense against kernel panics.
Manual deployments are a liability in the GDPR era. Learn how to implement a GitOps workflow using Kubernetes, GitLab CI, and Weave Flux to create an immutable, auditable infrastructure on high-performance NVMe storage.