k8s-launch-kit-config

โดย nvidia

Use this skill when the user needs help understanding, creating, or editing a k8s-launch-kit (l8k) configuration file (l8k-config.yaml or cluster-config.yaml).…

npx skills add https://github.com/nvidia/k8s-launch-kit --skill k8s-launch-kit-config

l8k: Configuration Files

PREREQUISITE: Read ../k8s-launch-kit-shared/SKILL.md for install paths, global flags, and output modes.

Understand, create, or edit l8k configuration files.

File Types

FileSourcePurpose
cluster-config.yamlGenerated by l8k discoverHardware inventory plus the resolved deployment profile
l8k-config.yamlUser-created or copied from cluster-configFull config with both hardware + deployment settings

Usage

# Use a config file for generation
l8k generate --user-config my-config.yaml \
  --save-deployment-files ./output

# Combine user config with live discovery (hardware refreshed, settings kept)
l8k discover --user-config my-config.yaml \
  --kubeconfig ~/.kube/config \
  --save-cluster-config ./updated-config.yaml

Profile Resolution and Write-Back

Discovery and file-backed generation resolve and persist settings with this precedence:

  1. Hardware and built-in defaults fill missing fields.
  2. Values already present in --user-config are preserved.
  3. Explicit CLI flags override both.

Discovery writes to its selected output YAML; generation rewrites its source config in place. On later runs, only missing fields are recalculated. multirail: false is an explicit value, not a missing field, so it remains false across rewrites.

Config Sections Quick Reference

SectionWhat It Controls
networkOperatorOperator namespace, version, image repository, helm chart repository (helmRepoURL)
docaDriverOFED/DOCA driver image, version, blacklist settings
maintenanceMaintenance Operator, SR-IOV drain, and legacy OFED upgrade concurrency
nvIpamNV-IPAM IP pool ranges and subnet generation
sriovVF count, resource prefix, MTU, link type
hostdevHost device resource name
rdmaSharedRDMA shared device resource name
ipoibIPoIB master interface, resource name
macvlanMacVLAN master interface, mode
nicConfigurationOperatorNIC firmware template settings
spectrumXOVS bridge config, multiplane mode, RDMA settings
profileProfile selection criteria (fabric, deployment, multirail)
clusterConfig[]Per-group hardware: NICs, nodes, capabilities, selectors

Each clusterConfig[] entry has these key fields:

  • identifier — group name (used for NicNodePolicy naming). For groups with both machineType and gpuType resolved, this is the sanitised machine label (<machineType>-<gpuType>); otherwise a fallback group-N.
  • machineType — server model (e.g. PowerEdge-XE9680); populated from nvidia.com/gpu.machine label or DMI fallback.
  • gpuType — GPU SKU (e.g. NVIDIA-H200); populated from nvidia.com/gpu.product label or nvidia-smi fallback. Note: this field used to be called productType — the rename happened to disambiguate it from the server model. Old productType: keys in hand-authored configs must be renamed to gpuType:.
  • capabilities.nodes.{sriov,rdma,ib} — what the underlying hardware supports.
  • pfs[] — physical function list with PCI address, device ID, RDMA device, network interface, traffic class, rail, NUMA, GPU affinity, and model (the VPD model/description string read from NicDevice.Status.modelName).
    • One rail per NIC (default). Discovery advertises one rail per physical NIC: a NIC's multi-plane east-west PFs (planes of one port, e.g. Spectrum-X ConnectX-8/9) collapse to the master PF, so an 8-PF node lists 4 east-west PFs / 4 rails. A NIC whose model is genuinely dual-port (2-port/Dual-port) keeps a rail per port. Run l8k discover --collapse-nic-rails=false to emit one rail per PF (legacy/dev behaviour).
  • nodeSelector — Kubernetes node selector for this group. Source groups key on the machine label written by l8k discover: nvidia.kubernetes-launch-kit.machine: <machineType>-<gpuType>. Auto-merged groups (different machineTypes sharing a GPU type) key on nvidia.kubernetes-launch-kit.gpu: <gpuType> instead — discovery writes both labels onto every node, so the merged selector binds correctly across source machineTypes.
  • workerNodes — explicit hostnames (populated by discovery).

For the full field-by-field reference with types, defaults, and descriptions, read references/config-reference.md.

Topology Presets

The presets/ directory contains pre-recorded topologies for known hardware combinations. A preset is a topology.yaml file with the following shape:

machineType: PowerEdge-XE9680   # required
gpuType: NVIDIA-H200            # required — both keys are matched as a pair
nicModel: BlueField-3 SuperNIC (ConnectX-7)
gpuInterconnect: NV18
numaNodes: 2

# Required if the preset will be used with `l8k generate --for`.
# Discovery-time overlay does not need this block.
capabilities:
  nodes:
    sriov: true
    rdma: true
    ib: false

pfs:
  - deviceID: a2dc
    pciAddress: 0000:1a:00.0
    traffic: east-west
    rail: 0
    numaNode: 0
    connectedGPU: GPU0
    gpuProximity: PIX

Lookup is exact-match on (machineType, gpuType). No any-GPU fallback — a preset that doesn't declare gpuType: is rejected at load time. Multi-variant presets for the same machine (different GPU SKUs) live in separate directories with composite names like PowerEdge-XE9680-H200 / PowerEdge-XE9680-B200. The directory name is shown by l8k preset list and is what l8k generate --for <name> accepts.

Validation deviations. When the matched preset's PF count, PCI addresses, or device IDs don't exactly match discovered hardware, the preset is NOT applied — discovery keeps the live-discovered topology (traffic/rail/NUMA), because overlaying a preset onto a different PCI layout would corrupt the classification (a coincidentally-overlapping PCI address would inherit the preset's unrelated traffic/rail/GPU fields). The discrepancies are recorded under clusterConfig[*].presetDeviation and every subsequent config load re-emits a warning listing each deviation. The preset's authoritative topology is overlaid only on an exact match (zero deviations); presetApplied: true appears only in that case. Part-number and PSID differences are expected (firmware/SKU variants) and never block application.

Common Edits

# Change VF count per PF
sriov:
  numVfs: 16

# Change MTU
sriov:
  mtu: 9000

# Set DOCA driver version
docaDriver:
  version: "doca3.2.0-25.10-1.2.8.0-2"

# Allow four simultaneous maintenance operations. Network Operator 26.1+
# uses the global Maintenance Operator limits; older releases use the legacy
# SR-IOV/OFED limits where applicable.
maintenance:
  maxParallelOperations: 4
  maxUnavailable: 4
  maxNodeMaintenanceTimeSeconds: 3600
  maxParallelUpgrades: 4

# Override the helm chart repository URL (rarely needed — the embedded
# release catalog supplies the right URL for each MAJOR.MINOR release).
# Useful only for mirrors or private chart hosts.
networkOperator:
  helmRepoURL: "https://my-mirror.example.com/charts"

# Configure NV-IPAM subnets manually
nvIpam:
  subnets:
    - name: "rail-0-subnet"
      cidr: "10.10.0.0/16"
      gateway: "10.10.0.1"

# Namespaces for the secondary-network CRs + example test DaemonSets.
# One independent copy is rendered per namespace (shared resources like
# IPPools and NodePolicies are NOT duplicated). Defaults to ["default"].
networkNamespaces: ["my-namespace"]

Tips

  • Start by running discovery (l8k discover) to generate a baseline, then edit it.
  • A discovered config can be passed directly to l8k generate without repeating profile flags; use flags only for overrides.
  • nvIpam subnets are auto-generated if not specified — one per rail using non-routable ranges.
  • docaDriver.unloadThirdPartyRDMAModules: true auto-populates UNLOAD_THIRD_PARTY_RDMA_MODULES from discovered OFED-dependent modules.
  • For release 26.1+, SR-IOV requestor mode requires both the Network Operator drain requestor and the SR-IOV external drainer. l8k renders both; applying only CRs cannot enable their Deployment environment variables.
  • Updating an existing release to the generated requestor-mode Helm values requires --overwrite-existing.

See Also