Found 1,094 results for: docker
Is your deployment pipeline stuck in the slow lane? Learn how to optimize Docker layer caching, configure GitLab Runners for maximum concurrency, and why high-performance NVMe storage in Norway is the secret weapon for faster TTM.
Default container configurations are a security minefield. From dropping root privileges to navigating the post-Schrems II landscape in Norway, here is the battle-hardened guide to locking down your Docker and Kubernetes workloads.
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.
Slow pipelines kill developer momentum. Learn how to crush build times by targeting the hidden bottleneck: Disk I/O. We analyze Docker caching strategies, self-hosted GitLab runners, and why NVMe storage in Oslo is your best compliance strategy post-Schrems II.
Slow build times are the silent killer of developer velocity. Learn how to architect I/O-heavy pipelines using NVMe storage, efficient Docker caching, and local Norwegian infrastructure to cut deployment times by 60%.
Your build times are killing developer velocity. We analyze how disk I/O bottlenecks and network latency sabotage pipelines, and how to fix it with specific GitLab CI tunings, Docker layer caching, and NVMe-backed architecture.
Your pipeline is the bottleneck. We dissect Docker layer caching, NVMe I/O impact, and private runner architecture to slash build times by 60%. Written for the post-Schrems II reality.
Running Docker as root? You might as well hand over your SSH keys. Here is the battle-hardened guide to locking down containers, navigating Schrems II, and why KVM isolation is non-negotiable.
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.
Stop letting slow I/O and network latency kill your deployment velocity. A deep dive into optimizing GitLab Runners, Docker caching strategies, and the impact of Norwegian data residency on pipeline performance.
It is late 2020. Kubernetes has won the marketing war, but does your architecture actually require that level of complexity? We analyze the trade-offs between K8s, Docker Swarm, and HashiCorp Nomad, focusing on overhead, persistence, and why running these on compliant Norwegian NVMe VPS is critical for GDPR.
Containers aren't micro-VMs. Here is a battle-hardened guide to securing your Docker and Kubernetes payloads, adhering to Schrems II compliance, and preventing runtime exploits on Norwegian infrastructure.
It is October 2020, and the privacy shield is dead. Here is how to lock down your Docker containers and infrastructure to satisfy Datatilsynet and sleep better at night.
Container isolation is a myth if you're running as root. In this deep dive, we dismantle common Docker security failures, analyze the impact of Schrems II on your hosting choices, and show you how to lock down your stack before it hits production.
A battle-hardened comparison of Kubernetes, Docker Swarm, and Nomad from a post-Schrems II perspective. We analyze complexity, overhead, and why underlying NVMe storage matters more than your scheduler choice.
Escape the public cloud billing trap and data sovereignty nightmares. Learn how to deploy a high-performance, self-hosted serverless architecture using OpenFaaS and Docker Swarm on bare-metal capable VDS infrastructure.
With the CJEU invalidating the US-EU Privacy Shield yesterday, where you host your cluster matters as much as how you orchestrate it. We benchmark Kubernetes 1.18, Docker Swarm, and Nomad 0.11 on NVMe infrastructure.
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.
Your build pipeline isn't slow because of your code; it's slow because of I/O wait times. Here is a technical breakdown of how to cut deployment times by 60% using Docker layer caching, RAM disks, and high-performance VDS in Norway.
Stop wrapping your Keras models in Flask. Learn how to deploy TensorFlow Serving via Docker on high-performance NVMe infrastructure for sub-100ms inference times while keeping your data compliant with Norwegian standards.
Moving from Monolith to Microservices isn't just about Docker; it's about surviving distributed failure. We break down essential patterns—API Gateways, Circuit Breakers, and Saga—implemented on high-performance infrastructure secure under Norwegian law.
Your build pipeline is the heartbeat of your engineering team. If it's slow, your TTM suffers. We dissect I/O bottlenecks, Docker layer caching, and why hosting your runners on Norwegian NVMe infrastructure matters for GDPR and speed.
Containers provide isolation, not security. From dropping Linux capabilities to mitigating the 'runc' vulnerability, here is the battle-hardened guide to securing your Docker infrastructure in Norway.
A battle-hardened guide to locking down Docker and Kubernetes in a post-CVE-2019-5736 world. We cover non-root users, read-only filesystems, and why KVM isolation on CoolVDS is your last line of defense.
Default Docker settings are a security nightmare waiting to happen. Learn how to harden your container runtime, manage capabilities, and why the underlying VPS architecture matters for GDPR compliance in Norway.
Stop paying the 'cloud tax' for serverless. Learn how to architect a private Functions-as-a-Service (FaaS) platform using OpenFaaS and Docker on high-performance NVMe KVM instances. Keep your data in Norway, your latency low, and your costs predictable.
Moving from monolith to microservices isn't just about Docker containers; it's about surviving network latency and data consistency. Here is a battle-hardened guide to architecture patterns that actually work in 2019.
Your developers are browsing Reddit because your build pipeline is stalled. Here is how to cut deployment times by 60% using Docker caching strategies, specific overlay2 drivers, and high-IOPS infrastructure in Norway.
Public cloud serverless functions promise scale but deliver cold starts and unpredictable bills. Learn how to architect a private serverless platform using OpenFaaS and Docker on high-performance NVMe VPS infrastructure for total data sovereignty in Norway.
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.