Control Pod Density
Pod density is the number of pods per node.
Kubernetes has a default limit of 110 pods per node. If you are using the EKS Optimized AMI on AWS, the number of pods is limited by instance type in the default configuration.
Do not use the
max-pods argument to kubelet. Karpenter is not aware of this value. For example, Karpenter may provision an instance expecting it to accommodate more pods than this static limit.
Increase Pod Density
☁️ AWS Specific
By default, the number of pods on a node is limited by both the number of networking interfaces (ENIs) that may be attached to an instance type and the number of IP addresses that can be assigned to each ENI. See IP addresses per network interface per instance type for a more detailed information on these instance types' limits.
Karpenter can be configured to disable nodes' ENI-based pod density. This is especially useful for small to medium instance types which have a lower ENI-based pod density.
NoteWhen using small instance types, it may be necessary to enable prefix assignment mode in the AWS VPC CNI plugin to more pods per node. Prefix assignment mode was introduced in AWS VPC CNI v1.9 and allows ENIs to manage a broader set of IP addresses. Much higher pod densities are supported as a result.
Provisioner-Specific Pod Density
Pod density can be configured at the provisioner level by specifying
maxPods within the
.spec.kubeletConfiguration. All nodes spawned by this provisioner will set this
maxPods value on their kubelet and will account for this value during scheduling.
See Provisioner API Kubelet Configuration for more details.
Controller-Wide Pod Density
AWS_ENI_LIMITED_POD_DENSITYis deprecated in favor of the
.spec.kubeletConfiguration.maxPodsset at the Provisioner-level
Set the environment variable
AWS_ENI_LIMITED_POD_DENSITY: "false" (or the argument
--aws-eni-limited-pod-density=false) in the Karpenter controller to allow nodes to host up to 110 pods by default.
Environment variables for the Karpenter controller may be specified as helm chart values.
Limit Pod Density
Generally, increasing pod density is more efficient. However, some use cases exist for limiting pod density.
You can use topology spread features to reduce blast radius. For example, spreading workloads across EC2 Availability Zones.
Restrict Instance Types
Exclude large instance sizes to reduce the blast radius of an EC2 instance failure.
Consider setting up upper or lower boundaries on target instance sizes with the node.kubernetes.io/instance-type key.
The following example shows how to avoid provisioning large Graviton instances in order to reduce the impact of individual instance failures:
-key: node.kubernetes.io/instance-type operator: NotIn values: 'm6g.16xlarge' 'm6gd.16xlarge' 'r6g.16xlarge' 'r6gd.16xlarge' 'c6g.16xlarge'