Schedule GPUs
Kubernetes v1.26 [stable]
Kubernetes includes stable support for managing AMD and NVIDIA GPUs (graphical processing units) across different nodes in your cluster, using device plugins.
This page describes how users can consume GPUs, and outlines some of the limitations in the implementation.
Using device plugins
Kubernetes implements device plugins to let Pods access specialized hardware features such as GPUs.
As an administrator, you have to install GPU drivers from the corresponding hardware vendor on the nodes and run the corresponding device plugin from the GPU vendor. Here are some links to vendors' instructions:
Once you have installed the plugin, your cluster exposes a custom schedulable resource such as amd.com/gpu
or nvidia.com/gpu
.
You can consume these GPUs from your containers by requesting
the custom GPU resource, the same way you request cpu
or memory
.
However, there are some limitations in how you specify the resource
requirements for custom devices.
GPUs are only supposed to be specified in the limits
section, which means:
- You can specify GPU
limits
without specifyingrequests
, because Kubernetes will use the limit as the request value by default. - You can specify GPU in both
limits
andrequests
but these two values must be equal. - You cannot specify GPU
requests
without specifyinglimits
.
Here's an example manifest for a Pod that requests a GPU:
apiVersion: v1
kind: Pod
metadata:
name: example-vector-add
spec:
restartPolicy: OnFailure
containers:
- name: example-vector-add
image: "registry.example/example-vector-add:v42"
resources:
limits:
gpu-vendor.example/example-gpu: 1 # requesting 1 GPU
Clusters containing different types of GPUs
If different nodes in your cluster have different types of GPUs, then you can use Node Labels and Node Selectors to schedule pods to appropriate nodes.
For example:
# Label your nodes with the accelerator type they have.
kubectl label nodes node1 accelerator=example-gpu-x100
kubectl label nodes node2 accelerator=other-gpu-k915
That label key accelerator
is just an example; you can use
a different label key if you prefer.
Automatic node labelling
If you're using AMD GPU devices, you can deploy Node Labeller. Node Labeller is a controller that automatically labels your nodes with GPU device properties.
At the moment, that controller can add labels for:
- Device ID (-device-id)
- VRAM Size (-vram)
- Number of SIMD (-simd-count)
- Number of Compute Unit (-cu-count)
- Firmware and Feature Versions (-firmware)
- GPU Family, in two letters acronym (-family)
- SI - Southern Islands
- CI - Sea Islands
- KV - Kaveri
- VI - Volcanic Islands
- CZ - Carrizo
- AI - Arctic Islands
- RV - Raven
kubectl describe node cluster-node-23
Name: cluster-node-23
Roles: <none>
Labels: beta.amd.com/gpu.cu-count.64=1
beta.amd.com/gpu.device-id.6860=1
beta.amd.com/gpu.family.AI=1
beta.amd.com/gpu.simd-count.256=1
beta.amd.com/gpu.vram.16G=1
kubernetes.io/arch=amd64
kubernetes.io/os=linux
kubernetes.io/hostname=cluster-node-23
Annotations: node.alpha.kubernetes.io/ttl: 0
…
With the Node Labeller in use, you can specify the GPU type in the Pod spec:
apiVersion: v1
kind: Pod
metadata:
name: cuda-vector-add
spec:
restartPolicy: OnFailure
containers:
- name: cuda-vector-add
# https://github.com/kubernetes/kubernetes/blob/v1.7.11/test/images/nvidia-cuda/Dockerfile
image: "registry.k8s.io/cuda-vector-add:v0.1"
resources:
limits:
nvidia.com/gpu: 1
affinity:
nodeAffinity:
requiredDuringSchedulingIgnoredDuringExecution:
nodeSelectorTerms:
– matchExpressions:
– key: beta.amd.com/gpu.family.AI # Arctic Islands GPU family
operator: Exist
This ensures that the Pod will be scheduled to a node that has the GPU type you specified.
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