machine-controller-manager
virtual-kubelet
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machine-controller-manager | virtual-kubelet | |
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1 | 10 | |
245 | 4,080 | |
1.6% | 1.0% | |
8.4 | 6.7 | |
9 days ago | 9 days ago | |
Go | Go | |
Apache License 2.0 | Apache License 2.0 |
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machine-controller-manager
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Deploy on prem Kubernetes. What is the best approach paid and unpaid to deploy a cluster on premise with burst to azure/aws? The only need is the ability to have some static pods. I do have a preference for free/open source solutions.
If you define "burstable" as creating new nodes in the cloud: Can be achieved with the Machine Controller Manager that is also internally used by Gardener: https://github.com/gardener/machine-controller-manager. You would have a MachineDeployment CRD for different cloud providers that can be scaled just like a K8s deployment and creates cloud provider VMs underneath. (also scale to 0 is possible for certain providers) .
virtual-kubelet
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Bare-Metal Kubernetes, Part I: Talos on Hetzner
Speaking of k8s, anyone here know of ready-made solutions for getting XCode (i.e. xcodebuild) running in pods? As far as I'm aware, there are no good solutions for getting XCode running on Linux, so at the moment I'm just futzing about with a virtual-kubelet[0] implementation that spawns MacOS VMs. This works just fine, but the problem seems like such an obvious one that I expect there to be some existing solution(s) I just missed.
[0]:https://github.com/virtual-kubelet/virtual-kubelet/
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Keeping Airflow tasks “cloud-native”
Have you looked into virtual kubelet yet? It allows you to make a virtual node in your on-prem cluster that schedules workloads on services like AWS Fargate or Azure Container Instances.
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Similar to AWS Fargate provider?
If you are serious about implementing this yourself, you may want to look into virtual kubelet: https://virtual-kubelet.io/
- Nomad vs. Kubernetes
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Deploy on prem Kubernetes. What is the best approach paid and unpaid to deploy a cluster on premise with burst to azure/aws? The only need is the ability to have some static pods. I do have a preference for free/open source solutions.
I just stumbled upon this project a while back and don't have experience with it, so I don't know how well it works and what caveats you may face, but there's Virtual Kubelet, which aims to do just that, i.e. running a virtual Kubernetes node outside the cluster. Its Kip provider sounds like the thing you're looking for.
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Create a fake node
Are you looking something like the following: https://github.com/virtual-kubelet/virtual-kubelet
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How to use the GitOps model to create, update and manage applications at the edge with KubeEdge and Argo
Kubeedge docs are light on self-justification... How does https://github.com/kubeedge/kubeedge differ from https://github.com/virtual-kubelet/virtual-kubelet or just running a regular kubelet on that edge machine?
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Autoscaling Redis applications on Kubernetes 🚀🚀
If this sounds interesting, do check out Virtual Nodes in Azure Kubernetes Service to see how you can use them to seamlessly scale your applications to Azure Container Instances and benefit from quick provisioning of pods, and only pay per second for their execution time. The virtual nodes add-on for AKS, is based on the open source project Virtual Kubelet which is an open source Kubernetes kubelet implementation.
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Infrastructure Engineering - Diving Deep
Use cases like these are made possible by projects like KubeEdge , K3s and Virtual Kubelets. You can read more about how they power the edge with different architectures and compromises here.
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Evolving Container Security with Linux User Namespaces
This is a complicated question to answer.
This isn't my expertise (the cluster orchestration system), but I can answer to the best of my abilities: Titus, today is a system that sits on top of Kubernetes, and uses Kubernetes components to do its thing, but we've substituted many of the systems with our own. For example, closer to my area of knowledge, we've used our own executor / provider along with the Virtual Kubelet project (https://github.com/virtual-kubelet/virtual-kubelet) instead of Kubelet.
We're exploring where we can leverage the Kubernetes ecosystem, adapt components, or help contribute changes back that others can leverage to enable our use of more COTS components of Kubernetes.
tl;dr: We're swapping out the engines while in flight