Kubernetes is billed as a container cluster "scheduler/orchestrator", but I have no idea what this means. After reading the Kubernetes site and (vague) GitHub wiki, the best I can tell is that its somehow figures out what VMs are available/capable of running your Docker container, and then deploys them there. But that is just my guess, and I haven't seen any concrete verbiage in their documentation to support that.

So what is Kubernetes, exactly, and what are some specific problems that it solves?

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    Given that all of the docker-world projects (kubernetes/fleet/swarm/etc) have difficulties with explaining what they do and what sets them apart, I think that a somewhat wishy-washy question is all we users can provide ... One asks "what's the difference between fleet and kubernetes" and the answer is "you can use fleet to launch kubernetes". Bummer. ;-) – Torsten Bronger Aug 28 '15 at 10:26
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    I think it is a perfectly valid question and points out some short comings in the doco. To close it as being too broad is a disservice. The best approach for me, was simply to download the k8s codebase and go looking in there for instance to find out what a pod was. That helped me greatly. – Beezer Jun 14 '19 at 11:06

The purpose of Kubernetes is to make it easier to organize and schedule your application across a fleet of machines. At a high level it is an operating system for your cluster.

Basically, it allows you to not worry about what specific machine in your datacenter each application runs on. Additionally it provides generic primitives for health checking and replicating your application across these machines, as well as services for wiring your application into micro-services so that each layer in your application is decoupled from other layers so that you can scale/update/maintain them independently.

While it is possible to do many of these things in application layer, such solutions tend to be one-off and brittle, it's much better to have separation of concerns, where an orchestration system worries about how to run your application, and you worry about the code that makes up your application.

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    Thanks @brendan (+1) - your answer definitely helps. One followup question though: isn't this what Apache Mesos does? Are Kubernetes and Mesos competitors to each other? If not, could they be used in concert with each other (and if so, how)? Thanks again! – smeeb Jan 22 '15 at 18:10
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    @smeeb Mesos and Kubernetes complement each other (The latter is supported as a Mesos framework). Mesos provides more sophisticated resource management. In other words Kubernetes lets Mesos decide which host is used, based on available capacity. Mesos supports other frameworks. If you read the docs, you'll see that Marathon is another way to launch containers on a Mesos managed server cluster. – Mark O'Connor Jan 23 '15 at 1:00

As you read from its Github page:

Kubernetes is an open source system for managing containerized applications across multiple hosts, providing basic mechanisms for deployment, maintenance, and scaling of applications.

Kubernetes is:

lean: lightweight, simple, accessible
portable: public, private, hybrid, multi cloud
extensible: modular, pluggable, hookable, composable
self-healing: auto-placement, auto-restart, auto-replication

Kubernetes builds upon a decade and a half of experience at Google running production workloads at scale, combined with best-of-breed ideas and practices from the community.

For me Kubernetes is a container orchestration tool from Google. Due to its design you can implement compatibility with any container engine, but I think now it's limited to Docker. There are some important concepts in its architecture:

Kubernetes works with the following concepts:

Clusters are the compute resources on top of which your containers are built. Kubernetes can run anywhere! See the Getting Started Guides for instructions for a variety of services.

Pods are a colocated group of Docker containers with shared volumes. They're the smallest deployable units that can be created, scheduled, and managed with Kubernetes. Pods can be created individually, but it's recommended that you use a replication controller even if creating a single pod. More about pods.

Replication controllers manage the lifecycle of pods. They ensure that a specified number of pods are running at any given time, by creating or killing pods as required. More about replication controllers.

Services provide a single, stable name and address for a set of pods. They act as basic load balancers. More about services.

Labels are used to organize and select groups of objects based on key:value pairs. More about labels.

So, you have a group of machines that forms a cluster where your containers are run. Yo can also define a group of containers that provide a service, in a similar way you do with other tools like fig (i.e.: webapp pod can be a rails server and a postgres database). You have also other tools to ensure a number of containers/pods of a service running at the same time, a key-value store, a kind of built-in load balancer...

If you know something about coreos, it's a very similar solution but from Google. Algo Kubernetes has a good integration with Google Cloud Engine.

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    Thanks @jcortejoso (+1) - however I have a few followup questions if you don't mind: (1) you say that Kubernetes is similar to CoreOS, but from Google. This implies that Kubernetes and CoreOS solve the same problem. But from [Kubernetes' own website](), it says you can install Kubernetes on CoreOS. So which is it?!? Is Kubernetes the same as CoreOS, or does Kubernetes run on CoreOS and solve a specific problem? – smeeb Jan 22 '15 at 13:26
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    Also (2) I'm still not seeing the value in Kubernetes' "orchestration" here. You state that you can use Kubernetes to define a group of containers that provide a service, which has me wondering two separate things: (2a) couldn't I just do this type of clustering at the app layer, and put my app behind a nginx load balancer? And (2b) is this all there is to "orchestration"? To me, again, it just seems like load balancing that could be easily achieved at the app layer. Thoughts? Thanks again for the wonderful answer! – smeeb Jan 22 '15 at 13:32
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    If kubernetes is "lightweight", I wonder what the fat solution would be. – Torsten Bronger Aug 28 '15 at 10:32
  • @smeeb I'm not that familiar with nginx (so forgive my naivety), but I don't think nginx will restart a server that has crashed; and if a machine (or whole datacenter) goes down, nginx won't restart your app on a different machine. kubernetes will make sure you always keep n number of "pods" running somewhere, and it doesn't really matter where or how. – kgreenek Sep 10 '15 at 21:52

Kubernetes provides much of the same functionality as Infrastructure as a Service APIs, but aimed at dynamically scheduled containers rather than virtual machines, and as Platform as a Service systems, but with greater flexibility, including:

  • mounting storage systems,
  • distributing secrets,
  • application health checking,
  • replicating application instances,
  • horizontal auto-scaling,
  • naming and discovery,
  • load balancing,
  • rolling updates,
  • resource monitoring,
  • log access and ingestion,
  • support for introspection and debugging, and
  • identity and authorization.

If you already use other mechanisms for service discovery, secret distribution, load balancing, monitoring, etc., of course you can continue to use them, but we aim to make it easy to transition to Kubernetes from existing IaaS and PaaS systems by providing this functionality.


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