Container Technology Wiki
Docker Containers
- Docker 101
- Basic Docker Operations
- Docker Administration
- Docker Security Resources
- Docker OS Interaction
- Docker With Other Tools
- Docker API
- Docker Compose
Kubernetes Guide
- Kubernetes 101
-
Kubernetes Architecture
- Kubernetes Ecosystem
- Kubernetes Nodes
- Kubernetes Pods
- Kubernetes Controllers and Control Plane
- Kubernetes DaemonSets
- Container Runtime Interface
- Working with Containers in Kubernetes
- Working with Images in Kubernetes
- Workloads in Kubernetes
- Kubernetes Services
- Kubernetes Jobs
- Kubernetes and Microservices
- Kubernetes Operators
- Kubernetes Persistent Volumes
- Kubernetes Advantages and Use Cases
-
Kubernetes Operations
- Installing Kubernetes
- Kubernetes Configuration
- Kubernetes Monitoring
- Kubernetes Debugging and Troubleshooting
- Kubernetes Load Balancing
- Kubernetes Security
- Kubernetes Networking
- Kubernetes Storage Management
- Kubernetes in Production
- Working with Kubernetes Ingress
- Kubernetes Security Best Practices
- Managing Kubernetes with Kops and Kubeadm
- Kubernetes Secrets
- Kubernetes Autoscaling
- Kubernetes ConfigMap
- Kubernetes Namespace
- Kubernetes Authentication
- Kubernetes Vault
- CIS Kubernetes Benchmark
- Kubernetes Cluster
- Kubernetes as a Service
- Managed Kubernetes
- Kubernetes Distributions
- Enterprise Kubernetes
Container Basics
- Container Architecture
- Advantages of Containers
- Container Challenges
- Containers and IT Infrastructure
- Enterprise DevOps
- eBPF
- eBPF Linux
Containers Ops
- Container Security Management
- Container Deployment
- Container Monitoring
- Container Automation
- Container Multitenancy
- Container Backup and Disaster Recovery
- Prometheus Monitoring
Container Security
- Container Security Best Practices
- Containers for DevSecOps
- Container Vulnerabilities and Threats
- Container Vulnerability Scanning
- Container Secrets Management
- Container Access Control
- Container Audits and Compliance
- Application Whitelisting
- Zero Trust Networks
- Network Segmentation for Containers
- Container Isolation
- Open Source Security Tools for Containers
- Open Source Vulnerability Scanner
- Open Source Security Tools
- Container Security Tools
Cloud Native Computing Foundation
- AWS EC2 Security
- Cloud-Native Applications
- Cloud-Native Architecture
- Cloud Native AWS
- Cloud Native Development
- Cloud Native Infrastructure
- Cloud Native Security
- Envoy Proxy
- Harbor Kubernetes
- Open Policy Agent
- Oracle Cloud Security
- SaaS Cloud Security
- Security Issues in Cloud Computing
- SPIFFE
- VMware Tanzu
Serverless Computing
- Serverless Architecture
- AWS Lambda
- Azure Functions
- Google Cloud Functions
- Serverless Security
- On-Premises Serverless Platforms
- Function as a Service - FaaS
- Knative
- Serverless vs Containers
Container Platforms
- Containers and Cloud Computing
- Container Operating Systems
- Red Hat Openshift
- Pivotal Container Service
- Multi-Cloud Strategy
- Kubernetes vs Cloud Foundry
- CWPP
Other Container Engines
Kubernetes Alternatives
Container Community and Events
- Container Technology Wiki
- Container Platforms
- Red Hat Openshift
- OpenShift vs. Kubernetes
OpenShift vs. Kubernetes
OpenShift has been often called as “Enterprise Kubernetes” by its vendor - Red Hat. It’s often confusing, as Red Hat tends to describe it as PaaS, sometimes hiding the fact that Kubernetes is an integral part of OpenShift with more features built around it. This page gathers resources about the real differences between those two.
Below we have compiled publicly available sources from around the world that present views on OpenShift vs. Kubernetes.
The Container Security book by Liz Rice
Fundamental Technology Concepts that Protect Containerized Applications
Perspectives on OpenShift vs. Kubernetes
Kubernetes vs OpenShift: What Is the Difference?
Managing containers across the infrastructure can become such a complex task that a container management platform is an essential vehicle for any organization. Kubernetes and OpenShift are two of the most popular container management platforms in the market. What makes it interesting is that OpenShift is based on Kubernetes. Read on to learn more about their features and differences.
10 most important differences between OpenShift and Kubernetes
OpenShift has been often called as “Enterprise Kubernetes” by its vendor - Red Hat. In this article, I’m describing real differences between OpenShift and Kubernetes. It’s often confusing, as Red Hat tends to describe it as PaaS, sometimes hiding the fact that Kubernetes is an integral part of OpenShift with more features built around it. Let’s dive in and check what are the real differences between those two.
Kubernetes Vs Openshift: What Is the Difference?
simplilearn.com
OpenShift & Kubernetes: Where We’ve Been and Where We’re Going
blog.openshift.com
linkedin.com
shapeblock.com
OpenShift or Kubernetes Vanilla - What do you Need?
elastisys.com
The Challenges of Monitoring Kubernetes and OpenShift
thenewstack.io
How To
Managing Docker Containers with OpenShift and Kubernetes
keyholesoftware.com
Further Reading
- Kubernetes Alternatives - Kubernetes vs Mesos vs Swarm— Kubernetes, Docker Swarm, and Apache Mesos are 3 modern choices for container and data center orchestration. Mesos is more ambitious, as Kubernetes equates to just a single node of Mesos’ entire solution.
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