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docs/admin/multi-cluster.md

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-# Considerations for running multiple Kubernetes clusters
-
-You may want to set up multiple Kubernetes clusters, both to
-have clusters in different regions to be nearer to your users, and to tolerate failures and/or invasive maintenance.
-This document describes some of the issues to consider when making a decision about doing so.
-
-Note that at present,
-Kubernetes does not offer a mechanism to aggregate multiple clusters into a single virtual cluster. However,
-we [plan to do this in the future](../proposals/federation.md).
-
-## Scope of a single cluster
-
-On IaaS providers such as Google Compute Engine or Amazon Web Services, a VM exists in a
-[zone](https://cloud.google.com/compute/docs/zones) or [availability
-zone](http://docs.aws.amazon.com/AWSEC2/latest/UserGuide/using-regions-availability-zones.html).
-We suggest that all the VMs in a Kubernetes cluster should be in the same availability zone, because:
-  - compared to having a single global Kubernetes cluster, there are fewer single-points of failure
-  - compared to a cluster that spans availability zones, it is easier to reason about the availability properties of a
-    single-zone cluster.
-  - when the Kubernetes developers are designing the system (e.g. making assumptions about latency, bandwidth, or
-    correlated failures) they are assuming all the machines are in a single data center, or otherwise closely connected.
-
-It is okay to have multiple clusters per availability zone, though on balance we think fewer is better.
-Reasons to prefer fewer clusters are:
-  - improved bin packing of Pods in some cases with more nodes in one cluster (less resource fragmentation)
-  - reduced operational overhead (though the advantage is diminished as ops tooling and processes matures)
-  - reduced costs for per-cluster fixed resource costs, e.g. apiserver VMs (but small as a percentage
-    of overall cluster cost for medium to large clusters).
-
-Reasons to have multiple clusters include:
-  - strict security policies requiring isolation of one class of work from another (but, see Partitioning Clusters
-    below).
-  - test clusters to canary new Kubernetes releases or other cluster software.
-
-## Selecting the right number of clusters
-
-The selection of the number of Kubernetes clusters may be a relatively static choice, only revisited occasionally.
-By contrast, the number of nodes in a cluster and the number of pods in a service may be change frequently according to
-load and growth.
-
-To pick the number of clusters, first, decide which regions you need to be in to have adequate latency to all your end users, for services that will run
-on Kubernetes (if you use a Content Distribution Network, the latency requirements for the CDN-hosted content need not
-be considered).  Legal issues might influence this as well. For example, a company with a global customer base might decide to have clusters in US, EU, AP, and SA regions.
-Call the number of regions to be in `R`.
-
-Second, decide how many clusters should be able to be unavailable at the same time, while still being available.  Call
-the number that can be unavailable `U`.  If you are not sure, then 1 is a fine choice.
-
-If it is allowable for load-balancing to direct traffic to any region in the event of a cluster failure, then
-you need at least the larger of `R` or `U + 1` clusters.  If it is not (e.g you want to ensure low latency for all
-users in the event of a cluster failure), then you need to have `R * (U + 1)` clusters
-(`U + 1` in each of `R` regions).  In any case, try to put each cluster in a different zone.
-
-Finally, if any of your clusters would need more than the maximum recommended number of nodes for a Kubernetes cluster, then
-you may need even more clusters.  Kubernetes v1.0 currently supports clusters up to 100 nodes in size, but we are targeting
-1000-node clusters by early 2016.
-
-## Working with multiple clusters
-
-When you have multiple clusters, you would typically create services with the same config in each cluster and put each of those
-service instances behind a load balancer (AWS Elastic Load Balancer, GCE Forwarding Rule or HTTP Load Balancer) spanning all of them, so that
-failures of a single cluster are not visible to end users.
+This file has moved to: http://kubernetes.github.io/docs/admin/multi-cluster/
 
 
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