Table of Contents
The IAA device plugin for Kubernetes supports acceleration using the Intel Analytics accelerator(IAA).
The IAA plugin discovers IAA work queues and presents them as a node resources.
The IAA plugin and operator optionally support provisioning of IAA devices and workqueues with the help of accel-config utility through initcontainer.
The following sections detail how to use the IAA device plugin.
Pre-built images of this component are available on the Docker hub. These images are automatically built and uploaded to the hub from the latest main branch of this repository.
Release tagged images of the components are also available on the Docker hub, tagged with their
release version numbers in the format x.y.z, corresponding to the branches and releases in this
repository. Thus the easiest way to deploy the plugin in your cluster is to run this command
$ kubectl apply -k 'https://github.com/intel/intel-device-plugins-for-kubernetes/deployments/iaa_plugin?ref=<RELEASE_VERSION>'
daemonset.apps/intel-iaa-plugin createdWhere <RELEASE_VERSION> needs to be substituted with the desired release tag or main to get devel images.
Nothing else is needed. See the development guide for details if you want to deploy a customized version of the plugin.
There's a sample idxd initcontainer included that provisions IAA devices and workqueues (1 engine / 1 group / 1 wq (user/dedicated)), to deploy:
$ kubectl apply -k deployments/iaa_plugin/overlays/iaa_initcontainer/The provisioning script and template are available for customization.
The provisioning config can be optionally stored in the ProvisioningConfig configMap which is then passed to initcontainer through the volume mount.
There's also a possibility for a node specific congfiguration through passing a nodename via NODE_NAME into initcontainer's environment and passing a node specific profile via configMap volume mount.
To create a custom provisioning config:
$ kubectl create configmap --namespace=inteldeviceplugins-system intel-iaa-config --from-file=demo/iaa.confYou can verify the plugin has been registered with the expected nodes by searching for the relevant resource allocation status on the nodes:
$ kubectl get nodes -o go-template='{{range .items}}{{.metadata.name}}{{"\n"}}{{range $k,$v:=.status.allocatable}}{{" "}}{{$k}}{{": "}}{{$v}}{{"\n"}}{{end}}{{end}}' | grep '^\([^ ]\)\|\( iaa\)'
master
iaa.intel.com/wq-user-dedicated: 2
iaa.intel.com/wq-user-shared: 10
node1
iaa.intel.com/wq-user-dedicated: 4
iaa.intel.com/wq-user-shared: 30We can test the plugin is working by deploying the provided example accel-config-demo test image.
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Build a Docker image with an accel-config tests:
$ make accel-config-demo ... Successfully tagged intel/accel-config-demo:devel
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Create a pod running unit tests off the local Docker image:
$ kubectl apply -f ./demo/iaa-accel-config-demo-pod.yaml pod/iaa-accel-config-demo created
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Wait until pod is completed:
$ kubectl get pods |grep iaa-accel-config-demo iaa-accel-config-demo 0/1 Completed 0 31m If the pod did not successfully launch, possibly because it could not obtain the IAA resource, it will be stuck in the `Pending` status: ```bash $ kubectl get pods NAME READY STATUS RESTARTS AGE iaa-accel-config-demo 0/1 Pending 0 7s
This can be verified by checking the Events of the pod:
$ kubectl describe pod iaa-accel-config-demo | grep -A3 Events: Events: Type Reason Age From Message ---- ------ ---- ---- ------- Warning FailedScheduling 2m26s default-scheduler 0/1 nodes are available: 1 Insufficient iaa.intel.com/wq-user-dedicated.