Kubernetes Scaling - bobbae/gcp GitHub Wiki
GKE's cluster autoscaler automatically resizes the number of nodes in a given node pool, based on the demands of your workloads. You don't need to manually add or remove nodes or over-provision your node pools. Instead, you specify a minimum and maximum size for the node pool, and the rest is automatic.
https://cloud.google.com/kubernetes-engine/docs/how-to/cluster-autoscaler
If resources are deleted or moved when autoscaling your cluster, your workloads might experience transient disruption. For example, if your workload consists of a controller with a single replica, that replica's Pod might be rescheduled onto a different node if its current node is deleted. Before enabling cluster autoscaler, design your workloads to tolerate potential disruption or ensure that critical Pods are not interrupted.
Autopilot is a new mode of operation in Google Kubernetes Engine (GKE) that is designed to reduce the operational cost of managing clusters, optimize your clusters for production, and yield higher workload availability.
https://cloud.google.com/kubernetes-engine/docs/how-to/autopilot-spot-pods
HPA changes the shape of your Kubernetes workload by automatically increasing or decreasing the number of Pods in response to the workload's CPU or memory consumption, or in response to custom metrics reported from within Kubernetes or external metrics from sources outside of your cluster.
HPA cannot be used for workloads that cannot be scaled, such as DaemonSets.
The Horizontal Pod Autoscaler automatically scales the number of Pods in a replication controller, deployment, replica set or stateful set.
The Horizontal Pod Autoscaler is implemented as a Kubernetes API resource and a controller. The resource determines the behavior of the controller. The controller periodically adjusts the number of replicas in a replication controller or deployment to match the observed metrics such as average CPU utilisation, average memory utilisation or any other custom metric to the target specified by the user.
https://kubernetes.io/docs/tasks/run-application/horizontal-pod-autoscale-walkthrough/
You can automatically scale your Google Kubernetes Engine (GKE) workloads based on metrics available in Cloud Monitoring.
https://cloud.google.com/kubernetes-engine/docs/tutorials/autoscaling-metrics
https://towardsdatascience.com/kubernetes-hpa-with-custom-metrics-from-prometheus-9ffc201991e
https://medium.com/@matteo.candido/kubernetes-hpa-autoscaling-with-external-metrics-b225289b9206
Vertical Pod Autoscaler (VPA) frees the users from necessity of setting up-to-date resource limits and requests for the containers in their pods. When configured, it will set the requests automatically based on usage and thus allow proper scheduling onto nodes so that appropriate resource amount is available for each pod. It will also maintain ratios between limits and requests that were specified in initial containers configuration.
It can both down-scale pods that are over-requesting resources, and also up-scale pods that are under-requesting resources based on their usage over time.
Multidimensional Pod autoscaling (MPA) frees you from choosing a single way to scale your clusters. With multidimensional Pod autoscaling, you can use horizontal scaling based on CPU and vertical scaling based on memory at the same time.