Learn about NUMA-aware scheduling and how you can use it to deploy high performance workloads in an OKD cluster.
The NUMA Resources Operator allows you to schedule high-performance workloads in the same NUMA zone. It deploys a node resources exporting agent that reports on available cluster node NUMA resources, and a secondary scheduler that manages the workloads.
Non-Uniform Memory Access (NUMA) is a compute platform architecture that allows different CPUs to access different regions of memory at different speeds. NUMA resource topology refers to the locations of CPUs, memory, and PCI devices relative to each other in the compute node. Colocated resources are said to be in the same NUMA zone. For high-performance applications, the cluster needs to process pod workloads in a single NUMA zone.
NUMA architecture allows a CPU with multiple memory controllers to use any available memory across CPU complexes, regardless of where the memory is located. This allows for increased flexibility at the expense of performance. A CPU processing a workload using memory that is outside its NUMA zone is slower than a workload processed in a single NUMA zone. Also, for I/O-constrained workloads, the network interface on a distant NUMA zone slows down how quickly information can reach the application. High-performance workloads, such as telecommunications workloads, cannot operate to specification under these conditions.
NUMA-aware scheduling aligns the requested cluster compute resources (CPUs, memory, devices) in the same NUMA zone to process latency-sensitive or high-performance workloads efficiently. NUMA-aware scheduling also improves pod density per compute node for greater resource efficiency.
By integrating the Node Tuning Operator’s performance profile with NUMA-aware scheduling, you can further configure CPU affinity to optimize performance for latency-sensitive workloads.
The default OKD pod scheduler scheduling logic considers the available resources of the entire compute node, not individual NUMA zones. If the most restrictive resource alignment is requested in the kubelet topology manager, error conditions can occur when admitting the pod to a node. Conversely, if the most restrictive resource alignment is not requested, the pod can be admitted to the node without proper resource alignment, leading to worse or unpredictable performance. For example, runaway pod creation with Topology Affinity Error
statuses can occur when the pod scheduler makes suboptimal scheduling decisions for guaranteed pod workloads without knowing if the pod’s requested resources are available. Scheduling mismatch decisions can cause indefinite pod startup delays. Also, depending on the cluster state and resource allocation, poor pod scheduling decisions can cause extra load on the cluster because of failed startup attempts.
The NUMA Resources Operator deploys a custom NUMA resources secondary scheduler and other resources to mitigate against the shortcomings of the default OKD pod scheduler. The following diagram provides a high-level overview of NUMA-aware pod scheduling.
The NodeResourceTopology
API describes the available NUMA zone resources in each compute node.
The NUMA-aware secondary scheduler receives information about the available NUMA zones from the NodeResourceTopology
API and schedules high-performance workloads on a node where it can be optimally processed.
The node topology exporter exposes the available NUMA zone resources for each compute node to the NodeResourceTopology
API. The node topology exporter daemon tracks the resource allocation from the kubelet by using the PodResources
API.
The PodResources
API is local to each node and exposes the resource topology and available resources to the kubelet.
The The |
For more information about running secondary pod schedulers in your cluster and how to deploy pods with a secondary pod scheduler, see Scheduling pods using a secondary scheduler.
NUMA Resources Operator deploys resources that allow you to schedule NUMA-aware workloads and deployments. You can install the NUMA Resources Operator using the OKD CLI or the web console.
As a cluster administrator, you can install the Operator using the CLI.
Install the OpenShift CLI (oc
).
Log in as a user with cluster-admin
privileges.
Create a namespace for the NUMA Resources Operator:
Save the following YAML in the nro-namespace.yaml
file:
apiVersion: v1
kind: Namespace
metadata:
name: openshift-numaresources
Create the Namespace
CR by running the following command:
$ oc create -f nro-namespace.yaml
Create the Operator group for the NUMA Resources Operator:
Save the following YAML in the nro-operatorgroup.yaml
file:
apiVersion: operators.coreos.com/v1
kind: OperatorGroup
metadata:
name: numaresources-operator
namespace: openshift-numaresources
spec:
targetNamespaces:
- openshift-numaresources
Create the OperatorGroup
CR by running the following command:
$ oc create -f nro-operatorgroup.yaml
Create the subscription for the NUMA Resources Operator:
Save the following YAML in the nro-sub.yaml
file:
apiVersion: operators.coreos.com/v1alpha1
kind: Subscription
metadata:
name: numaresources-operator
namespace: openshift-numaresources
spec:
channel: "4.14"
name: numaresources-operator
source: redhat-operators
sourceNamespace: openshift-marketplace
Create the Subscription
CR by running the following command:
$ oc create -f nro-sub.yaml
Verify that the installation succeeded by inspecting the CSV resource in the openshift-numaresources
namespace. Run the following command:
$ oc get csv -n openshift-numaresources
NAME DISPLAY VERSION REPLACES PHASE
numaresources-operator.v4.14.2 numaresources-operator 4.14.2 Succeeded
As a cluster administrator, you can install the NUMA Resources Operator using the web console.
Create a namespace for the NUMA Resources Operator:
In the OKD web console, click Administration → Namespaces.
Click Create Namespace, enter openshift-numaresources
in the Name field, and then click Create.
Install the NUMA Resources Operator:
In the OKD web console, click Operators → OperatorHub.
Choose numaresources-operator from the list of available Operators, and then click Install.
In the Installed Namespaces field, select the openshift-numaresources
namespace, and then click Install.
Optional: Verify that the NUMA Resources Operator installed successfully:
Switch to the Operators → Installed Operators page.
Ensure that NUMA Resources Operator is listed in the openshift-numaresources
namespace with a Status of InstallSucceeded.
During installation an Operator might display a Failed status. If the installation later succeeds with an InstallSucceeded message, you can ignore the Failed message. |
If the Operator does not appear as installed, to troubleshoot further:
Go to the Operators → Installed Operators page and inspect the Operator Subscriptions and Install Plans tabs for any failure or errors under Status.
Go to the Workloads → Pods page and check the logs for pods in the default
project.
Clusters running latency-sensitive workloads typically feature performance profiles that help to minimize workload latency and optimize performance. The NUMA-aware scheduler deploys workloads based on available node NUMA resources and with respect to any performance profile settings applied to the node. The combination of NUMA-aware deployments, and the performance profile of the workload, ensures that workloads are scheduled in a way that maximizes performance.
For the NUMA Resources Operator to be fully operational, you must deploy the NUMAResourcesOperator
custom resource and the NUMA-aware secondary pod scheduler.
When you have installed the NUMA Resources Operator, then create the NUMAResourcesOperator
custom resource (CR) that instructs the NUMA Resources Operator to install all the cluster infrastructure needed to support the NUMA-aware scheduler, including daemon sets and APIs.
Install the OpenShift CLI (oc
).
Log in as a user with cluster-admin
privileges.
Install the NUMA Resources Operator.
Create the NUMAResourcesOperator
custom resource:
Save the following minimal required YAML file example as nrop.yaml
:
apiVersion: nodetopology.openshift.io/v1
kind: NUMAResourcesOperator
metadata:
name: numaresourcesoperator
spec:
nodeGroups:
- machineConfigPoolSelector:
matchLabels:
pools.operator.machineconfiguration.openshift.io/worker: "" (1)
1 | This should match the MachineConfigPool that you want to configure the NUMA Resources Operator on. For example, you might have created a MachineConfigPool named worker-cnf that designates a set of nodes expected to run telecommunications workloads. |
Create the NUMAResourcesOperator
CR by running the following command:
$ oc create -f nrop.yaml
Creating the |
Verify that the NUMA Resources Operator deployed successfully by running the following command:
$ oc get numaresourcesoperators.nodetopology.openshift.io
NAME AGE
numaresourcesoperator 27s
After a few minutes, run the following command to verify that the required resources deployed successfully:
$ oc get all -n openshift-numaresources
NAME READY STATUS RESTARTS AGE
pod/numaresources-controller-manager-7d9d84c58d-qk2mr 1/1 Running 0 12m
pod/numaresourcesoperator-worker-7d96r 2/2 Running 0 97s
pod/numaresourcesoperator-worker-crsht 2/2 Running 0 97s
pod/numaresourcesoperator-worker-jp9mw 2/2 Running 0 97s
After installing the NUMA Resources Operator, deploy the NUMA-aware secondary pod scheduler to optimize pod placement for improved performance and reduced latency in NUMA-based systems.
Create the NUMAResourcesScheduler
custom resource that deploys the NUMA-aware custom pod scheduler:
Save the following minimal required YAML in the nro-scheduler.yaml
file:
apiVersion: nodetopology.openshift.io/v1
kind: NUMAResourcesScheduler
metadata:
name: numaresourcesscheduler
spec:
imageSpec: "registry.redhat.io/openshift4/noderesourcetopology-scheduler-rhel9:v4.14" (1)
1 | In a disconnected environment, make sure to configure the resolution of this image by completing one of the following actions:
|
Create the NUMAResourcesScheduler
CR by running the following command:
$ oc create -f nro-scheduler.yaml
After a few seconds, run the following command to confirm the successful deployment of the required resources:
$ oc get all -n openshift-numaresources
NAME READY STATUS RESTARTS AGE
pod/numaresources-controller-manager-7d9d84c58d-qk2mr 1/1 Running 0 12m
pod/numaresourcesoperator-worker-7d96r 2/2 Running 0 97s
pod/numaresourcesoperator-worker-crsht 2/2 Running 0 97s
pod/numaresourcesoperator-worker-jp9mw 2/2 Running 0 97s
pod/secondary-scheduler-847cb74f84-9whlm 1/1 Running 0 10m
NAME DESIRED CURRENT READY UP-TO-DATE AVAILABLE NODE SELECTOR AGE
daemonset.apps/numaresourcesoperator-worker 3 3 3 3 3 node-role.kubernetes.io/worker= 98s
NAME READY UP-TO-DATE AVAILABLE AGE
deployment.apps/numaresources-controller-manager 1/1 1 1 12m
deployment.apps/secondary-scheduler 1/1 1 1 10m
NAME DESIRED CURRENT READY AGE
replicaset.apps/numaresources-controller-manager-7d9d84c58d 1 1 1 12m
replicaset.apps/secondary-scheduler-847cb74f84 1 1 1 10m
The NUMA Resources Operator requires a single NUMA node policy to be configured on the cluster. This can be achieved in two ways: by creating and applying a performance profile, or by configuring a KubeletConfig.
The preferred way to configure a single NUMA node policy is to apply a performance profile. You can use the Performance Profile Creator (PPC) tool to create the performance profile. If a performance profile is created on the cluster, it automatically creates other tuning components like |
For more information about creating a performance profile, see "About the Performance Profile Creator" in the "Additional resources" section.
This example YAML shows a performance profile created by using the performance profile creator (PPC) tool:
apiVersion: performance.openshift.io/v2
kind: PerformanceProfile
metadata:
name: performance
spec:
cpu:
isolated: "3"
reserved: 0-2
machineConfigPoolSelector:
pools.operator.machineconfiguration.openshift.io/worker: "" (1)
nodeSelector:
node-role.kubernetes.io/worker: ""
numa:
topologyPolicy: single-numa-node (2)
realTimeKernel:
enabled: true
workloadHints:
highPowerConsumption: true
perPodPowerManagement: false
realTime: true
1 | This should match the MachineConfigPool that you want to configure the NUMA Resources Operator on. For example, you might have created a MachineConfigPool named worker-cnf that designates a set of nodes that run telecommunications workloads. |
2 | The topologyPolicy must be set to single-numa-node . Ensure that this is the case by setting the topology-manager-policy argument to single-numa-node when running the PPC tool. |
The recommended way to configure a single NUMA node policy is to apply a performance profile. Another way is by creating and applying a KubeletConfig
custom resource (CR), as shown in the following procedure.
Create the KubeletConfig
custom resource (CR) that configures the pod admittance policy for the machine profile:
Save the following YAML in the nro-kubeletconfig.yaml
file:
apiVersion: machineconfiguration.openshift.io/v1
kind: KubeletConfig
metadata:
name: worker-tuning
spec:
machineConfigPoolSelector:
matchLabels:
pools.operator.machineconfiguration.openshift.io/worker: "" (1)
kubeletConfig:
cpuManagerPolicy: "static" (2)
cpuManagerReconcilePeriod: "5s"
reservedSystemCPUs: "0,1" (3)
memoryManagerPolicy: "Static" (4)
evictionHard:
memory.available: "100Mi"
kubeReserved:
memory: "512Mi"
reservedMemory:
- numaNode: 0
limits:
memory: "1124Mi"
systemReserved:
memory: "512Mi"
topologyManagerPolicy: "single-numa-node" (5)
1 | Adjust this label to match the machineConfigPoolSelector in the NUMAResourcesOperator CR. |
2 | For cpuManagerPolicy , static must use a lowercase s . |
3 | Adjust this based on the CPU on your nodes. |
4 | For memoryManagerPolicy , Static must use an uppercase S . |
5 | topologyManagerPolicy must be set to single-numa-node . |
Create the KubeletConfig
CR by running the following command:
$ oc create -f nro-kubeletconfig.yaml
Applying performance profile or |
Now that topo-aware-scheduler
is installed, the NUMAResourcesOperator
and NUMAResourcesScheduler
CRs are applied and your cluster has a matching performance profile or kubeletconfig
, you can schedule workloads with the NUMA-aware scheduler using deployment CRs that specify the minimum required resources to process the workload.
The following example deployment uses NUMA-aware scheduling for a sample workload.
Install the OpenShift CLI (oc
).
Log in as a user with cluster-admin
privileges.
Get the name of the NUMA-aware scheduler that is deployed in the cluster by running the following command:
$ oc get numaresourcesschedulers.nodetopology.openshift.io numaresourcesscheduler -o json | jq '.status.schedulerName'
"topo-aware-scheduler"
Create a Deployment
CR that uses scheduler named topo-aware-scheduler
, for example:
Save the following YAML in the nro-deployment.yaml
file:
apiVersion: apps/v1
kind: Deployment
metadata:
name: numa-deployment-1
namespace: openshift-numaresources
spec:
replicas: 1
selector:
matchLabels:
app: test
template:
metadata:
labels:
app: test
spec:
schedulerName: topo-aware-scheduler (1)
containers:
- name: ctnr
image: quay.io/openshifttest/hello-openshift:openshift
imagePullPolicy: IfNotPresent
resources:
limits:
memory: "100Mi"
cpu: "10"
requests:
memory: "100Mi"
cpu: "10"
- name: ctnr2
image: registry.access.redhat.com/rhel:latest
imagePullPolicy: IfNotPresent
command: ["/bin/sh", "-c"]
args: [ "while true; do sleep 1h; done;" ]
resources:
limits:
memory: "100Mi"
cpu: "8"
requests:
memory: "100Mi"
cpu: "8"
1 | schedulerName must match the name of the NUMA-aware scheduler that is deployed in your cluster, for example topo-aware-scheduler . |
Create the Deployment
CR by running the following command:
$ oc create -f nro-deployment.yaml
Verify that the deployment was successful:
$ oc get pods -n openshift-numaresources
NAME READY STATUS RESTARTS AGE
numa-deployment-1-6c4f5bdb84-wgn6g 2/2 Running 0 5m2s
numaresources-controller-manager-7d9d84c58d-4v65j 1/1 Running 0 18m
numaresourcesoperator-worker-7d96r 2/2 Running 4 43m
numaresourcesoperator-worker-crsht 2/2 Running 2 43m
numaresourcesoperator-worker-jp9mw 2/2 Running 2 43m
secondary-scheduler-847cb74f84-fpncj 1/1 Running 0 18m
Verify that the topo-aware-scheduler
is scheduling the deployed pod by running the following command:
$ oc describe pod numa-deployment-1-6c4f5bdb84-wgn6g -n openshift-numaresources
Events:
Type Reason Age From Message
---- ------ ---- ---- -------
Normal Scheduled 4m45s topo-aware-scheduler Successfully assigned openshift-numaresources/numa-deployment-1-6c4f5bdb84-wgn6g to worker-1
Deployments that request more resources than is available for scheduling will fail with a |
Verify that the expected allocated resources are listed for the node.
Identify the node that is running the deployment pod by running the following command:
$ oc get pods -n openshift-numaresources -o wide
NAME READY STATUS RESTARTS AGE IP NODE NOMINATED NODE READINESS GATES
numa-deployment-1-6c4f5bdb84-wgn6g 0/2 Running 0 82m 10.128.2.50 worker-1 <none> <none>
Run the following command with the name of that node that is running the deployment pod.
$ oc describe noderesourcetopologies.topology.node.k8s.io worker-1
...
Zones:
Costs:
Name: node-0
Value: 10
Name: node-1
Value: 21
Name: node-0
Resources:
Allocatable: 39
Available: 21 (1)
Capacity: 40
Name: cpu
Allocatable: 6442450944
Available: 6442450944
Capacity: 6442450944
Name: hugepages-1Gi
Allocatable: 134217728
Available: 134217728
Capacity: 134217728
Name: hugepages-2Mi
Allocatable: 262415904768
Available: 262206189568
Capacity: 270146007040
Name: memory
Type: Node
1 | The Available capacity is reduced because of the resources that have been allocated to the guaranteed pod. |
Resources consumed by guaranteed pods are subtracted from the available node resources listed under noderesourcetopologies.topology.node.k8s.io
.
Resource allocations for pods with a Best-effort
or Burstable
quality of service (qosClass
) are not reflected in the NUMA node resources under noderesourcetopologies.topology.node.k8s.io
. If a pod’s consumed resources are not reflected in the node resource calculation, verify that the pod has qosClass
of Guaranteed
and the CPU request is an integer value, not a decimal value. You can verify the that the pod has a qosClass
of Guaranteed
by running the following command:
$ oc get pod numa-deployment-1-6c4f5bdb84-wgn6g -n openshift-numaresources -o jsonpath="{ .status.qosClass }"
Guaranteed
The daemons controlled by the NUMA Resources Operator in their nodeGroup
poll resources to retrieve updates about available NUMA resources. You can fine-tune polling operations for these daemons by configuring the spec.nodeGroups
specification in the NUMAResourcesOperator
custom resource (CR). This provides advanced control of polling operations. Configure these specifications to improve scheduling behaviour and troubleshoot suboptimal scheduling decisions.
The configuration options are the following:
infoRefreshMode
: Determines the trigger condition for polling the kubelet. The NUMA Resources Operator reports the resulting information to the API server.
infoRefreshPeriod
: Determines the duration between polling updates.
podsFingerprinting
: Determines if point-in-time information for the current set of pods running on a node is exposed in polling updates.
|
Install the OpenShift CLI (oc
).
Log in as a user with cluster-admin
privileges.
Install the NUMA Resources Operator.
Configure the spec.nodeGroups
specification in your NUMAResourcesOperator
CR:
apiVersion: nodetopology.openshift.io/v1
kind: NUMAResourcesOperator
metadata:
name: numaresourcesoperator
spec:
nodeGroups:
- config:
infoRefreshMode: Periodic (1)
infoRefreshPeriod: 10s (2)
podsFingerprinting: Enabled (3)
name: worker
1 | Valid values are Periodic , Events , PeriodicAndEvents . Use Periodic to poll the kubelet at intervals that you define in infoRefreshPeriod . Use Events to poll the kubelet at every pod lifecycle event. Use PeriodicAndEvents to enable both methods. |
2 | Define the polling interval for Periodic or PeriodicAndEvents refresh modes. The field is ignored if the refresh mode is Events . |
3 | Valid values are Enabled , Disabled , and EnabledExclusiveResources . Setting to Enabled is a requirement for the cacheResyncPeriod specification in the NUMAResourcesScheduler . |
After you deploy the NUMA Resources Operator, verify that the node group configurations were applied by running the following command:
$ oc get numaresop numaresourcesoperator -o json | jq '.status'
...
"config": {
"infoRefreshMode": "Periodic",
"infoRefreshPeriod": "10s",
"podsFingerprinting": "Enabled"
},
"name": "worker"
...
To troubleshoot common problems with NUMA-aware pod scheduling, perform the following steps.
Install the OKD CLI (oc
).
Log in as a user with cluster-admin privileges.
Install the NUMA Resources Operator and deploy the NUMA-aware secondary scheduler.
Verify that the noderesourcetopologies
CRD is deployed in the cluster by running the following command:
$ oc get crd | grep noderesourcetopologies
NAME CREATED AT
noderesourcetopologies.topology.node.k8s.io 2022-01-18T08:28:06Z
Check that the NUMA-aware scheduler name matches the name specified in your NUMA-aware workloads by running the following command:
$ oc get numaresourcesschedulers.nodetopology.openshift.io numaresourcesscheduler -o json | jq '.status.schedulerName'
topo-aware-scheduler
Verify that NUMA-aware schedulable nodes have the noderesourcetopologies
CR applied to them. Run the following command:
$ oc get noderesourcetopologies.topology.node.k8s.io
NAME AGE
compute-0.example.com 17h
compute-1.example.com 17h
The number of nodes should equal the number of worker nodes that are configured by the machine config pool ( |
Verify the NUMA zone granularity for all schedulable nodes by running the following command:
$ oc get noderesourcetopologies.topology.node.k8s.io -o yaml
apiVersion: v1
items:
- apiVersion: topology.node.k8s.io/v1
kind: NodeResourceTopology
metadata:
annotations:
k8stopoawareschedwg/rte-update: periodic
creationTimestamp: "2022-06-16T08:55:38Z"
generation: 63760
name: worker-0
resourceVersion: "8450223"
uid: 8b77be46-08c0-4074-927b-d49361471590
topologyPolicies:
- SingleNUMANodeContainerLevel
zones:
- costs:
- name: node-0
value: 10
- name: node-1
value: 21
name: node-0
resources:
- allocatable: "38"
available: "38"
capacity: "40"
name: cpu
- allocatable: "134217728"
available: "134217728"
capacity: "134217728"
name: hugepages-2Mi
- allocatable: "262352048128"
available: "262352048128"
capacity: "270107316224"
name: memory
- allocatable: "6442450944"
available: "6442450944"
capacity: "6442450944"
name: hugepages-1Gi
type: Node
- costs:
- name: node-0
value: 21
- name: node-1
value: 10
name: node-1
resources:
- allocatable: "268435456"
available: "268435456"
capacity: "268435456"
name: hugepages-2Mi
- allocatable: "269231067136"
available: "269231067136"
capacity: "270573244416"
name: memory
- allocatable: "40"
available: "40"
capacity: "40"
name: cpu
- allocatable: "1073741824"
available: "1073741824"
capacity: "1073741824"
name: hugepages-1Gi
type: Node
- apiVersion: topology.node.k8s.io/v1
kind: NodeResourceTopology
metadata:
annotations:
k8stopoawareschedwg/rte-update: periodic
creationTimestamp: "2022-06-16T08:55:37Z"
generation: 62061
name: worker-1
resourceVersion: "8450129"
uid: e8659390-6f8d-4e67-9a51-1ea34bba1cc3
topologyPolicies:
- SingleNUMANodeContainerLevel
zones: (1)
- costs:
- name: node-0
value: 10
- name: node-1
value: 21
name: node-0
resources: (2)
- allocatable: "38"
available: "38"
capacity: "40"
name: cpu
- allocatable: "6442450944"
available: "6442450944"
capacity: "6442450944"
name: hugepages-1Gi
- allocatable: "134217728"
available: "134217728"
capacity: "134217728"
name: hugepages-2Mi
- allocatable: "262391033856"
available: "262391033856"
capacity: "270146301952"
name: memory
type: Node
- costs:
- name: node-0
value: 21
- name: node-1
value: 10
name: node-1
resources:
- allocatable: "40"
available: "40"
capacity: "40"
name: cpu
- allocatable: "1073741824"
available: "1073741824"
capacity: "1073741824"
name: hugepages-1Gi
- allocatable: "268435456"
available: "268435456"
capacity: "268435456"
name: hugepages-2Mi
- allocatable: "269192085504"
available: "269192085504"
capacity: "270534262784"
name: memory
type: Node
kind: List
metadata:
resourceVersion: ""
selfLink: ""
1 | Each stanza under zones describes the resources for a single NUMA zone. |
2 | resources describes the current state of the NUMA zone resources. Check that resources listed under items.zones.resources.available correspond to the exclusive NUMA zone resources allocated to each guaranteed pod. |
Enable the cacheResyncPeriod
specification to help the NUMA Resources Operator report more exact resource availability by monitoring pending resources on nodes and synchronizing this information in the scheduler cache at a defined interval. This also helps to minimize Topology Affinity Error errors because of sub-optimal scheduling decisions. The lower the interval, the greater the network load. The cacheResyncPeriod
specification is disabled by default.
Install the OpenShift CLI (oc
).
Log in as a user with cluster-admin
privileges.
Delete the currently running NUMAResourcesScheduler
resource:
Get the active NUMAResourcesScheduler
by running the following command:
$ oc get NUMAResourcesScheduler
NAME AGE
numaresourcesscheduler 92m
Delete the secondary scheduler resource by running the following command:
$ oc delete NUMAResourcesScheduler numaresourcesscheduler
numaresourcesscheduler.nodetopology.openshift.io "numaresourcesscheduler" deleted
Save the following YAML in the file nro-scheduler-cacheresync.yaml
. This example changes the log level to Debug
:
apiVersion: nodetopology.openshift.io/v1
kind: NUMAResourcesScheduler
metadata:
name: numaresourcesscheduler
spec:
imageSpec: "registry.redhat.io/openshift4/noderesourcetopology-scheduler-container-rhel8:v4.14"
cacheResyncPeriod: "5s" (1)
1 | Enter an interval value in seconds for synchronization of the scheduler cache. A value of 5s is typical for most implementations. |
Create the updated NUMAResourcesScheduler
resource by running the following command:
$ oc create -f nro-scheduler-cacheresync.yaml
numaresourcesscheduler.nodetopology.openshift.io/numaresourcesscheduler created
Check that the NUMA-aware scheduler was successfully deployed:
Run the following command to check that the CRD is created successfully:
$ oc get crd | grep numaresourcesschedulers
NAME CREATED AT
numaresourcesschedulers.nodetopology.openshift.io 2022-02-25T11:57:03Z
Check that the new custom scheduler is available by running the following command:
$ oc get numaresourcesschedulers.nodetopology.openshift.io
NAME AGE
numaresourcesscheduler 3h26m
Check that the logs for the scheduler show the increased log level:
Get the list of pods running in the openshift-numaresources
namespace by running the following command:
$ oc get pods -n openshift-numaresources
NAME READY STATUS RESTARTS AGE
numaresources-controller-manager-d87d79587-76mrm 1/1 Running 0 46h
numaresourcesoperator-worker-5wm2k 2/2 Running 0 45h
numaresourcesoperator-worker-pb75c 2/2 Running 0 45h
secondary-scheduler-7976c4d466-qm4sc 1/1 Running 0 21m
Get the logs for the secondary scheduler pod by running the following command:
$ oc logs secondary-scheduler-7976c4d466-qm4sc -n openshift-numaresources
...
I0223 11:04:55.614788 1 reflector.go:535] k8s.io/client-go/informers/factory.go:134: Watch close - *v1.Namespace total 11 items received
I0223 11:04:56.609114 1 reflector.go:535] k8s.io/client-go/informers/factory.go:134: Watch close - *v1.ReplicationController total 10 items received
I0223 11:05:22.626818 1 reflector.go:535] k8s.io/client-go/informers/factory.go:134: Watch close - *v1.StorageClass total 7 items received
I0223 11:05:31.610356 1 reflector.go:535] k8s.io/client-go/informers/factory.go:134: Watch close - *v1.PodDisruptionBudget total 7 items received
I0223 11:05:31.713032 1 eventhandlers.go:186] "Add event for scheduled pod" pod="openshift-marketplace/certified-operators-thtvq"
I0223 11:05:53.461016 1 eventhandlers.go:244] "Delete event for scheduled pod" pod="openshift-marketplace/certified-operators-thtvq"
Troubleshoot problems with the NUMA-aware scheduler by reviewing the logs. If required, you can increase the scheduler log level by modifying the spec.logLevel
field of the NUMAResourcesScheduler
resource. Acceptable values are Normal
, Debug
, and Trace
, with Trace
being the most verbose option.
To change the log level of the secondary scheduler, delete the running scheduler resource and re-deploy it with the changed log level. The scheduler is unavailable for scheduling new workloads during this downtime. |
Install the OpenShift CLI (oc
).
Log in as a user with cluster-admin
privileges.
Delete the currently running NUMAResourcesScheduler
resource:
Get the active NUMAResourcesScheduler
by running the following command:
$ oc get NUMAResourcesScheduler
NAME AGE
numaresourcesscheduler 90m
Delete the secondary scheduler resource by running the following command:
$ oc delete NUMAResourcesScheduler numaresourcesscheduler
numaresourcesscheduler.nodetopology.openshift.io "numaresourcesscheduler" deleted
Save the following YAML in the file nro-scheduler-debug.yaml
. This example changes the log level to Debug
:
apiVersion: nodetopology.openshift.io/v1
kind: NUMAResourcesScheduler
metadata:
name: numaresourcesscheduler
spec:
imageSpec: "registry.redhat.io/openshift4/noderesourcetopology-scheduler-container-rhel8:v4.14"
logLevel: Debug
Create the updated Debug
logging NUMAResourcesScheduler
resource by running the following command:
$ oc create -f nro-scheduler-debug.yaml
numaresourcesscheduler.nodetopology.openshift.io/numaresourcesscheduler created
Check that the NUMA-aware scheduler was successfully deployed:
Run the following command to check that the CRD is created successfully:
$ oc get crd | grep numaresourcesschedulers
NAME CREATED AT
numaresourcesschedulers.nodetopology.openshift.io 2022-02-25T11:57:03Z
Check that the new custom scheduler is available by running the following command:
$ oc get numaresourcesschedulers.nodetopology.openshift.io
NAME AGE
numaresourcesscheduler 3h26m
Check that the logs for the scheduler shows the increased log level:
Get the list of pods running in the openshift-numaresources
namespace by running the following command:
$ oc get pods -n openshift-numaresources
NAME READY STATUS RESTARTS AGE
numaresources-controller-manager-d87d79587-76mrm 1/1 Running 0 46h
numaresourcesoperator-worker-5wm2k 2/2 Running 0 45h
numaresourcesoperator-worker-pb75c 2/2 Running 0 45h
secondary-scheduler-7976c4d466-qm4sc 1/1 Running 0 21m
Get the logs for the secondary scheduler pod by running the following command:
$ oc logs secondary-scheduler-7976c4d466-qm4sc -n openshift-numaresources
...
I0223 11:04:55.614788 1 reflector.go:535] k8s.io/client-go/informers/factory.go:134: Watch close - *v1.Namespace total 11 items received
I0223 11:04:56.609114 1 reflector.go:535] k8s.io/client-go/informers/factory.go:134: Watch close - *v1.ReplicationController total 10 items received
I0223 11:05:22.626818 1 reflector.go:535] k8s.io/client-go/informers/factory.go:134: Watch close - *v1.StorageClass total 7 items received
I0223 11:05:31.610356 1 reflector.go:535] k8s.io/client-go/informers/factory.go:134: Watch close - *v1.PodDisruptionBudget total 7 items received
I0223 11:05:31.713032 1 eventhandlers.go:186] "Add event for scheduled pod" pod="openshift-marketplace/certified-operators-thtvq"
I0223 11:05:53.461016 1 eventhandlers.go:244] "Delete event for scheduled pod" pod="openshift-marketplace/certified-operators-thtvq"
Troubleshoot noderesourcetopologies
objects where unexpected results are occurring by inspecting the corresponding resource-topology-exporter
logs.
It is recommended that NUMA resource topology exporter instances in the cluster are named for nodes they refer to. For example, a worker node with the name |
Install the OpenShift CLI (oc
).
Log in as a user with cluster-admin
privileges.
Get the daemonsets managed by the NUMA Resources Operator. Each daemonset has a corresponding nodeGroup
in the NUMAResourcesOperator
CR. Run the following command:
$ oc get numaresourcesoperators.nodetopology.openshift.io numaresourcesoperator -o jsonpath="{.status.daemonsets[0]}"
{"name":"numaresourcesoperator-worker","namespace":"openshift-numaresources"}
Get the label for the daemonset of interest using the value for name
from the previous step:
$ oc get ds -n openshift-numaresources numaresourcesoperator-worker -o jsonpath="{.spec.selector.matchLabels}"
{"name":"resource-topology"}
Get the pods using the resource-topology
label by running the following command:
$ oc get pods -n openshift-numaresources -l name=resource-topology -o wide
NAME READY STATUS RESTARTS AGE IP NODE
numaresourcesoperator-worker-5wm2k 2/2 Running 0 2d1h 10.135.0.64 compute-0.example.com
numaresourcesoperator-worker-pb75c 2/2 Running 0 2d1h 10.132.2.33 compute-1.example.com
Examine the logs of the resource-topology-exporter
container running on the worker pod that corresponds to the node you are troubleshooting. Run the following command:
$ oc logs -n openshift-numaresources -c resource-topology-exporter numaresourcesoperator-worker-pb75c
I0221 13:38:18.334140 1 main.go:206] using sysinfo:
reservedCpus: 0,1
reservedMemory:
"0": 1178599424
I0221 13:38:18.334370 1 main.go:67] === System information ===
I0221 13:38:18.334381 1 sysinfo.go:231] cpus: reserved "0-1"
I0221 13:38:18.334493 1 sysinfo.go:237] cpus: online "0-103"
I0221 13:38:18.546750 1 main.go:72]
cpus: allocatable "2-103"
hugepages-1Gi:
numa cell 0 -> 6
numa cell 1 -> 1
hugepages-2Mi:
numa cell 0 -> 64
numa cell 1 -> 128
memory:
numa cell 0 -> 45758Mi
numa cell 1 -> 48372Mi
If you install the NUMA Resources Operator in a cluster with misconfigured cluster settings, in some circumstances, the Operator is shown as active but the logs of the resource topology exporter (RTE) daemon set pods show that the configuration for the RTE is missing, for example:
Info: couldn't find configuration in "/etc/resource-topology-exporter/config.yaml"
This log message indicates that the kubeletconfig
with the required configuration was not properly applied in the cluster, resulting in a missing RTE configmap
. For example, the following cluster is missing a numaresourcesoperator-worker
configmap
custom resource (CR):
$ oc get configmap
NAME DATA AGE
0e2a6bd3.openshift-kni.io 0 6d21h
kube-root-ca.crt 1 6d21h
openshift-service-ca.crt 1 6d21h
topo-aware-scheduler-config 1 6d18h
In a correctly configured cluster, oc get configmap
also returns a numaresourcesoperator-worker
configmap
CR.
Install the OKD CLI (oc
).
Log in as a user with cluster-admin privileges.
Install the NUMA Resources Operator and deploy the NUMA-aware secondary scheduler.
Compare the values for spec.machineConfigPoolSelector.matchLabels
in kubeletconfig
and
metadata.labels
in the MachineConfigPool
(mcp
) worker CR using the following commands:
Check the kubeletconfig
labels by running the following command:
$ oc get kubeletconfig -o yaml
machineConfigPoolSelector:
matchLabels:
cnf-worker-tuning: enabled
Check the mcp
labels by running the following command:
$ oc get mcp worker -o yaml
labels:
machineconfiguration.openshift.io/mco-built-in: ""
pools.operator.machineconfiguration.openshift.io/worker: ""
The cnf-worker-tuning: enabled
label is not present in the MachineConfigPool
object.
Edit the MachineConfigPool
CR to include the missing label, for example:
$ oc edit mcp worker -o yaml
labels:
machineconfiguration.openshift.io/mco-built-in: ""
pools.operator.machineconfiguration.openshift.io/worker: ""
cnf-worker-tuning: enabled
Apply the label changes and wait for the cluster to apply the updated configuration. Run the following command:
Check that the missing numaresourcesoperator-worker
configmap
CR is applied:
$ oc get configmap
NAME DATA AGE
0e2a6bd3.openshift-kni.io 0 6d21h
kube-root-ca.crt 1 6d21h
numaresourcesoperator-worker 1 5m
openshift-service-ca.crt 1 6d21h
topo-aware-scheduler-config 1 6d18h
You can use the oc adm must-gather
CLI command to collect information about your cluster, including features and objects associated with the NUMA Resources Operator.
You have access to the cluster as a user with the cluster-admin
role.
You have installed the OpenShift CLI (oc
).
To collect NUMA Resources Operator data with must-gather
, you must specify the NUMA Resources Operator must-gather
image.
$ oc adm must-gather --image=registry.redhat.io/numaresources-must-gather/numaresources-must-gather-rhel9:v4.14