# oc label node perf-node.example.com cpumanager=true
CPU Manager manages groups of CPUs and constrains workloads to specific CPUs.
CPU Manager is useful for workloads that have some of these attributes:
Require as much CPU time as possible.
Are sensitive to processor cache misses.
Are low-latency network applications.
Coordinate with other processes and benefit from sharing a single processor cache.
Topology Manager collects hints from the CPU Manager, Device Manager, and other Hint Providers to align pod resources, such as CPU, SR-IOV VFs, and other device resources, for all Quality of Service (QoS) classes on the same non-uniform memory access (NUMA) node.
Topology Manager uses topology information from the collected hints to decide if a pod can be accepted or rejected on a node, based on the configured Topology Manager policy and pod resources requested.
Topology Manager is useful for workloads that use hardware accelerators to support latency-critical execution and high throughput parallel computation.
To use Topology Manager you must configure CPU Manager with the static
policy.
Optional: Label a node:
# oc label node perf-node.example.com cpumanager=true
edit the MachineConfigPool
of the nodes where CPU Manager should be enabled. In this example, all workers have CPU Manager enabled:
# oc edit machineconfigpool worker
Add a label to the worker machine config pool:
metadata:
creationTimestamp: 2020-xx-xxx
generation: 3
labels:
custom-kubelet: cpumanager-enabled
Create a KubeletConfig
, cpumanager-kubeletconfig.yaml
, custom resource (CR). Refer to the label created in the previous step to have the correct nodes updated with the new kubelet config. See the machineConfigPoolSelector
section:
apiVersion: machineconfiguration.openshift.io/v1
kind: KubeletConfig
metadata:
name: cpumanager-enabled
spec:
machineConfigPoolSelector:
matchLabels:
custom-kubelet: cpumanager-enabled
kubeletConfig:
cpuManagerPolicy: static (1)
cpuManagerReconcilePeriod: 5s (2)
1 | Specify a policy:
|
2 | Optional. Specify the CPU Manager reconcile frequency. The default is 5s . |
Create the dynamic kubelet config:
# oc create -f cpumanager-kubeletconfig.yaml
This adds the CPU Manager feature to the kubelet config and, if needed, the Machine Config Operator (MCO) reboots the node. To enable CPU Manager, a reboot is not needed.
Check for the merged kubelet config:
# oc get machineconfig 99-worker-XXXXXX-XXXXX-XXXX-XXXXX-kubelet -o json | grep ownerReference -A7
"ownerReferences": [
{
"apiVersion": "machineconfiguration.openshift.io/v1",
"kind": "KubeletConfig",
"name": "cpumanager-enabled",
"uid": "7ed5616d-6b72-11e9-aae1-021e1ce18878"
}
]
Check the worker for the updated kubelet.conf
:
# oc debug node/perf-node.example.com
sh-4.2# cat /host/etc/kubernetes/kubelet.conf | grep cpuManager
cpuManagerPolicy: static (1)
cpuManagerReconcilePeriod: 5s (2)
1 | cpuManagerPolicy is defined when you create the KubeletConfig CR. |
2 | cpuManagerReconcilePeriod is defined when you create the KubeletConfig CR. |
Create a pod that requests a core or multiple cores. Both limits and requests must have their CPU value set to a whole integer. That is the number of cores that will be dedicated to this pod:
# cat cpumanager-pod.yaml
apiVersion: v1
kind: Pod
metadata:
generateName: cpumanager-
spec:
containers:
- name: cpumanager
image: gcr.io/google_containers/pause-amd64:3.0
resources:
requests:
cpu: 1
memory: "1G"
limits:
cpu: 1
memory: "1G"
nodeSelector:
cpumanager: "true"
Create the pod:
# oc create -f cpumanager-pod.yaml
Verify that the pod is scheduled to the node that you labeled:
# oc describe pod cpumanager
Name: cpumanager-6cqz7
Namespace: default
Priority: 0
PriorityClassName: <none>
Node: perf-node.example.com/xxx.xx.xx.xxx
...
Limits:
cpu: 1
memory: 1G
Requests:
cpu: 1
memory: 1G
...
QoS Class: Guaranteed
Node-Selectors: cpumanager=true
Verify that the cgroups
are set up correctly. Get the process ID (PID) of the pause
process:
# ├─init.scope
│ └─1 /usr/lib/systemd/systemd --switched-root --system --deserialize 17
└─kubepods.slice
├─kubepods-pod69c01f8e_6b74_11e9_ac0f_0a2b62178a22.slice
│ ├─crio-b5437308f1a574c542bdf08563b865c0345c8f8c0b0a655612c.scope
│ └─32706 /pause
Pods of quality of service (QoS) tier Guaranteed
are placed within the kubepods.slice
. Pods of other QoS tiers end up in child cgroups
of kubepods
:
# cd /sys/fs/cgroup/cpuset/kubepods.slice/kubepods-pod69c01f8e_6b74_11e9_ac0f_0a2b62178a22.slice/crio-b5437308f1ad1a7db0574c542bdf08563b865c0345c86e9585f8c0b0a655612c.scope
# for i in `ls cpuset.cpus tasks` ; do echo -n "$i "; cat $i ; done
cpuset.cpus 1
tasks 32706
Check the allowed CPU list for the task:
# grep ^Cpus_allowed_list /proc/32706/status
Cpus_allowed_list: 1
Verify that another pod (in this case, the pod in the burstable
QoS tier) on the system cannot run on the core allocated for the Guaranteed
pod:
# cat /sys/fs/cgroup/cpuset/kubepods.slice/kubepods-besteffort.slice/kubepods-besteffort-podc494a073_6b77_11e9_98c0_06bba5c387ea.slice/crio-c56982f57b75a2420947f0afc6cafe7534c5734efc34157525fa9abbf99e3849.scope/cpuset.cpus
0
# oc describe node perf-node.example.com
...
Capacity:
attachable-volumes-aws-ebs: 39
cpu: 2
ephemeral-storage: 124768236Ki
hugepages-1Gi: 0
hugepages-2Mi: 0
memory: 8162900Ki
pods: 250
Allocatable:
attachable-volumes-aws-ebs: 39
cpu: 1500m
ephemeral-storage: 124768236Ki
hugepages-1Gi: 0
hugepages-2Mi: 0
memory: 7548500Ki
pods: 250
------- ---- ------------ ---------- --------------- ------------- ---
default cpumanager-6cqz7 1 (66%) 1 (66%) 1G (12%) 1G (12%) 29m
Allocated resources:
(Total limits may be over 100 percent, i.e., overcommitted.)
Resource Requests Limits
-------- -------- ------
cpu 1440m (96%) 1 (66%)
This VM has two CPU cores. The system-reserved
setting reserves 500 millicores, meaning that half of one core is subtracted from the total capacity of the node to arrive at the Node Allocatable
amount. You can see that Allocatable CPU
is 1500 millicores. This means you can run one of the CPU Manager pods since each will take one whole core. A whole core is equivalent to 1000 millicores. If you try to schedule a second pod, the system will accept the pod, but it will never be scheduled:
NAMe ReADY STATUS ReSTARTS AGe
cpumanager-6cqz7 1/1 Running 0 33m
cpumanager-7qc2t 0/1 Pending 0 11s
Topology Manager aligns Pod
resources of all Quality of Service (QoS) classes by collecting topology hints from Hint Providers, such as CPU Manager and Device Manager, and using the collected hints to align the Pod
resources.
Topology Manager supports four allocation policies, which you assign in the KubeletConfig
custom resource (CR) named cpumanager-enabled
:
none
policyThis is the default policy and does not perform any topology alignment.
best-effort
policyFor each container in a pod with the best-effort
topology management policy, kubelet calls each Hint Provider to discover their resource
availability. Using this information, the Topology Manager stores the preferred NUMA Node affinity for that container. If the affinity is not preferred, Topology Manager stores this and admits the pod to the node.
restricted
policyFor each container in a pod with the restricted
topology management policy, kubelet calls each Hint Provider to discover their resource
availability. Using this information, the Topology Manager stores the preferred NUMA Node affinity for that container. If the affinity is not
preferred, Topology Manager rejects this pod from the node, resulting in a pod in a Terminated
state with a pod admission failure.
single-numa-node
policyFor each container in a pod with the single-numa-node
topology management policy, kubelet calls each Hint Provider to discover their resource availability. Using this information, the Topology Manager determines if a single NUMA Node affinity is possible. If it is, the pod is admitted to the node. If a single NUMA Node affinity is not possible, the Topology Manager rejects the pod from the node. This results in a pod in a Terminated state with a pod admission failure.
To use Topology Manager, you must configure an allocation policy in the KubeletConfig
custom resource (CR) named cpumanager-enabled
. This file might exist if you have set up CPU Manager. If the file does not exist, you can create the file.
Configure the CPU Manager policy to be static
.
To activate Topololgy Manager:
Configure the Topology Manager allocation policy in the custom resource.
$ oc edit KubeletConfig cpumanager-enabled
apiVersion: machineconfiguration.openshift.io/v1
kind: KubeletConfig
metadata:
name: cpumanager-enabled
spec:
machineConfigPoolSelector:
matchLabels:
custom-kubelet: cpumanager-enabled
kubeletConfig:
cpuManagerPolicy: static (1)
cpuManagerReconcilePeriod: 5s
topologyManagerPolicy: single-numa-node (2)
1 | This parameter must be static with a lowercase s . |
2 | Specify your selected Topology Manager allocation policy. Here, the policy is single-numa-node .
Acceptable values are: default , best-effort , restricted , single-numa-node . |
The example Pod
specs below help illustrate pod interactions with Topology Manager.
The following pod runs in the Besteffort
QoS class because no resource requests or limits are specified.
spec:
containers:
- name: nginx
image: nginx
The next pod runs in the Burstable
QoS class because requests are less than limits.
spec:
containers:
- name: nginx
image: nginx
resources:
limits:
memory: "200Mi"
requests:
memory: "100Mi"
If the selected policy is anything other than none
, Topology Manager would not consider either of these Pod
specifications.
The last example pod below runs in the Guaranteed QoS class because requests are equal to limits.
spec:
containers:
- name: nginx
image: nginx
resources:
limits:
memory: "200Mi"
cpu: "2"
example.com/device: "1"
requests:
memory: "200Mi"
cpu: "2"
example.com/device: "1"
Topology Manager would consider this pod. The Topology Manager would consult the hint providers, which are CPU Manager and Device Manager, to get topology hints for the pod.
Topology Manager will use this information to store the best topology for this container. In the case of this pod, CPU Manager and Device Manager will use this stored information at the resource allocation stage.