We use cookies and similar technologies to improve your experience, analyze site traffic, and personalize content. By clicking "Accept All", you consent to our use of cookies. You can manage your preferences or learn more in our Privacy Policy.
Privacy & Cookie Settings
We respect your privacy and give you control over your data. Choose which cookies you want to allow:
These cookies are necessary for the website to function and cannot be disabled. They are set in response to actions made by you such as setting your privacy preferences, logging in, or filling in forms.
These cookies help us understand how visitors interact with our website by collecting and reporting information anonymously. This helps us improve our services.
Providers: Google Analytics, Plausible Analytics (privacy-friendly)
These cookies are used to track visitors across websites to display relevant advertisements and measure campaign effectiveness.
Providers: LinkedIn, Twitter/X, Reddit
These cookies enable the website to remember choices you make (such as your language preference or region) to provide enhanced, more personalized features.
Your Privacy Rights
Right to Access: You can request a copy of your personal data
Right to Deletion: You can request deletion of your data
Right to Object: You can object to processing of your data
Right to Portability: You can request your data in a portable format
Default configurations are the silent killers of API performance. We dive deep into kernel-level tuning, NGINX optimizations, and the hardware realities required to handle thousands of requests per second in a post-Schrems II landscape.
Escape vendor lock-in and GDPR nightmares. Learn how to deploy a high-performance, compliant FaaS architecture using K3s and OpenFaaS on standard KVM infrastructure in Oslo.
Public cloud serverless functions are convenient until the bill arrives or Datatilsynet knocks on your door. Here is how to build a high-performance, GDPR-compliant FaaS platform on KVM in Oslo using OpenFaaS and K3s.
It is late 2020. Stop relying on simple ping checks and CPU graphs. We break down the architectural shift from Monitoring to Observability, how to handle high-cardinality data without crashing your budget, and why Schrems II makes self-hosting your metrics in Norway a legal necessity.
Microservices solve code complexity but introduce network chaos. This guide walks through a production-ready Service Mesh implementation (Istio 1.8) on Norwegian infrastructure, addressing the critical resource overhead that kills cheap VPS setups.
It is late 2020, and running containers as root is still the industry's most dangerous habit. From dropping capabilities to navigating the post-Schrems II landscape in Norway, here is how to lock down your infrastructure before the next CVE hits.
The promise of the cloud was 'pay as you go.' The reality for many European CTOs in 2020 is 'pay for what you forgot to turn off.' We analyze infrastructure rightsizing, the hidden costs of egress, and why data sovereignty in Norway is now a financial metric.
Your build times are killing developer productivity. We analyze the root causes of slow CI/CD—from I/O bottlenecks to network latency—and how to fix them using local Norwegian infrastructure.
Monitoring tells you the site is down. Observability tells you why the payment gateway timed out. A deep dive into the three pillars of observability for Norwegian infrastructure in the post-Schrems II era.
A battle-hardened guide to implementing Istio and Linkerd on Norwegian infrastructure. We tackle mTLS, Schrems II compliance, and avoiding latency spikes on KVM-based VPS.
Default container configurations are a security nightmare waiting to happen. From rootless execution to handling Schrems II compliance in Norway, here is the battle-tested guide to locking down your infrastructure before 2021 hits.
Manual deployments are killing your uptime. We break down the push-vs-pull GitOps architecture, secrets management with Sealed Secrets, and why Norwegian data sovereignty matters more than ever in late 2020.
Latency is the new downtime. We analyze edge computing strategies for 2021, focusing on Telenor's 5G rollout, Schrems II compliance, and optimizing regional aggregation nodes using K3s and WireGuard.
Don't build a distributed monolith. Learn the essential microservices patterns—Gateway, Circuit Breaker, and Saga—that keep systems stable when the network betrays you. Written for the post-Schrems II landscape.
A battle-hardened look at deploying microservices in 2020. We dismantle the hype, fix your NGINX configs, address Schrems II compliance in Norway, and explain why your 'cloud' provider is likely killing your API performance.
Why your "All Systems Green" dashboard is lying to you. We dissect the shift from passive monitoring to active observability, the impact of Schrems II on your log data, and how to host a compliant stack in Norway.
Moving to microservices isn't just about code; it's about infrastructure survival. We analyze battle-tested patterns (Strangler, Circuit Breaker) and the critical role of NVMe storage and Norwegian data sovereignty in late 2020.
Serverless architecture is an operational model, not a vendor product. Learn how to deploy OpenFaaS on high-performance CoolVDS instances to circumvent Schrems II compliance issues and eliminate cold starts.
Architecting microservices isn't just about splitting code; it's about managing failure and latency. We break down the Sidecar and Circuit Breaker patterns, discuss the post-Schrems II legal landscape for Norwegian devs, and explain why your choice of VPS virtualization defines your cluster's stability.
A battle-hardened guide to deploying microservices in the post-Schrems II era. We cover API gateways, circuit breakers, and why underlying hardware latency matters more than your code.
Cloud bills are skyrocketing. From identifying zombie resources to leveraging Norwegian compliance for cost savings, here is a pragmatic guide to slashing infrastructure TCO without sacrificing performance.
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.
With the recent Schrems II ruling killing the Privacy Shield, reliance on US hyperscalers is a liability. Here is a pragmatic architectural guide to a hybrid multi-cloud setup using Terraform and WireGuard to keep your PII safe in Norway.
The Privacy Shield is dead. We analyze how to architect a compliant multi-cloud strategy using Terraform and HAProxy, keeping sensitive PII on Norwegian soil while leveraging public cloud elasticity.
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.
Serverless promises infinite scale, but at what cost? We explore architectural patterns for deploying self-hosted FaaS on Norwegian infrastructure to solve latency, cost, and the data sovereignty challenges of 2020.
Vendor lock-in and the recent Schrems II ruling have made public cloud FaaS risky for European data. Here is a pragmatic architectural pattern for deploying OpenFaaS on high-performance NVMe VPS infrastructure in Norway.
Public cloud serverless functions promise infinite scale but deliver unpredictable costs and data sovereignty nightmares. In the wake of Schrems II, here is how to build a high-performance, compliant FaaS platform on your own infrastructure.
Moving from monolith to microservices isn't just a code change; it's an operational paradigm shift. We dissect critical patterns, necessary infrastructure tuning, and why the Schrems II ruling makes your hosting location more important than ever.
Microservices solve architectural problems but create networking nightmares. Learn how to deploy Istio 1.7 on high-performance infrastructure to handle mTLS, observability, and the new Schrems II compliance reality.