Deploy host networking with Network ATC

Applies to: Azure Stack HCI, version 22H2

This article guides you through the requirements, best practices, and deployment of Network ATC. Network ATC simplifies the deployment and network configuration management for Azure Stack HCI clusters. Network ATC provides an intent-based approach to host network deployment. By specifying one or more intents (management, compute, or storage) for a network adapter, you can automate the deployment of the intended configuration. For more information on Network ATC, including an overview and definitions, please see Network ATC overview.

Applies to: Windows Server 2025

This article guides you through the requirements, best practices, and deployment of Network ATC. Network ATC simplifies the deployment and network configuration management for Windows Server clusters. Network ATC provides an intent-based approach to host network deployment. By specifying one or more intents (management, compute, or storage) for a network adapter, you can automate the deployment of the intended configuration. For more information on Network ATC, including an overview and definitions, please see Network ATC overview.

If you have feedback or encounter any issues, review the Requirements and best practices section, check the Network ATC event log, and work with your Microsoft support team.

Prerequisites

Complete the following prerequisites for using Network ATC in Azure Stack HCI:

  • All servers in the cluster must be running Azure Stack HCI, version 22H2 with the November update (or later).

  • Must use physical hosts that are Azure Stack HCI certified.

  • Adapters in the same Network ATC intent must be symmetric (of the same make, model, speed, and configuration) and available on each cluster node.

    • Asymmetric adapters lead to a failure in deploying any intent.

    • With Azure Stack HCI 22H2, Network ATC will automatically confirm adapter symmetry for all nodes in the cluster before deploying an intent.

    • For more information on adapter symmetry, see Switch Embedded Teaming (SET)

  • Each physical adapter specified in an intent must use the same name on all nodes in the cluster.

  • Ensure each network adapter has an "Up" status, as verified by the PowerShell Get-NetAdapter cmdlet.

  • Ensure all hosts have the November Azure Stack HCI update or later.

  • Each node must have the following Azure Stack HCI features installed:

    • Network ATC
    • Network HUD
    • Hyper-V
    • Failover Clustering
    • Data Center Bridging

    Here's an example of installing the required features via PowerShell:

    Install-WindowsFeature -Name NetworkATC, NetworkHUD, Hyper-V, 'Failover-Clustering', 'Data-Center-Bridging' -IncludeManagementTools
    
  • Best practice: Insert each adapter in the same PCI slot(s) in each host. This practice leads to ease in automated naming conventions by imaging systems.

  • Best practice: Configure the physical network (switches) prior to Network ATC including VLANs, MTU, and DCB configuration. For more information, please see Physical Network Requirements.

Complete the following prerequisites for using Network ATC in Windows Server:

  • All servers in the cluster must be running Windows Server 2025 or later.

  • Must use physical hosts that are certified for Windows Server. You can find hardware certified for Secured-core server from the Windows Server Catalog

  • Adapters in the same Network ATC intent must be symmetric (of the same make, model, speed, and configuration) and available on each cluster node.

    • Asymmetric adapters lead to a failure in deploying any intent. Network ATC will automatically confirm adapter symmetry for all nodes in the cluster before deploying an intent.

    • For more information on adapter symmetry, see Switch Embedded Teaming (SET)

  • Each physical adapter specified in an intent must use the same name on all nodes in the cluster.

  • Ensure each network adapter has an "Up" status, as verified by the PowerShell Get-NetAdapter cmdlet.

  • Each node must have the following Windows Server features installed:

    • Network ATC
    • Network HUD
    • Hyper-V
    • Failover Clustering
    • Data Center Bridging

    Here's an example of installing the required features via PowerShell:

    Install-WindowsFeature -Name NetworkATC, NetworkHUD, Hyper-V, 'Failover-Clustering', 'Data-Center-Bridging' -IncludeManagementTools
    
  • Insert each adapter in the same PCI slot(s) in each host. This practice leads to ease in automated naming conventions by imaging systems.

  • Configure the physical network (switches) prior to Network ATC including VLANs, MTU, and DCB configuration. For more information, please see Physical Network Requirements.

Important

Deploying Network ATC in virtual machines may be used for test and validation purposes only. VM-based deployment requires an override to the default adapter settings to disable the NetworkDirect property. For more information on submission of an override, please see: Override default network settings.

Deploying Network ATC in standalone mode may be used for test and validation purposes only.

Common Network ATC commands

There are several new PowerShell commands included with Network ATC. Run theGet-Command -ModuleName NetworkATC cmdlet to identify them. Ensure PowerShell is run as an administrator.

The Remove-NetIntent cmdlet removes an intent from the local node or cluster. This command doesn't destroy the invoked configuration.

Example intents

Network ATC modifies how you deploy host networking, not what you deploy. You can deploy multiple scenarios so long as each scenario is supported by Microsoft. Here are some examples of common deployment options, and the PowerShell commands needed. These aren't the only combinations available but they should give you an idea of the possibilities.

For simplicity we only demonstrate two physical adapters per SET team, however it's possible to add more. For more information, please see Plan Host Networking.

Fully converged intent

For this intent, compute, storage, and management networks are deployed and managed across all cluster nodes.

Fully converged intent

Add-NetIntent -Name ConvergedIntent -Management -Compute -Storage -AdapterName pNIC01, pNIC02
Add-NetIntent -Name ConvergedIntent -Management -Compute -Storage -AdapterName pNIC01, pNIC02

Converged compute and storage intent; separate management intent

Two intents are managed across cluster nodes. Management uses pNIC01, and pNIC02; Compute and storage are on different adapters.

Storage and compute converged intent

Add-NetIntent -Name Mgmt -Management -AdapterName pNIC01, pNIC02
Add-NetIntent -Name Compute_Storage -Compute -Storage -AdapterName pNIC03, pNIC04
Add-NetIntent -Name Mgmt -Management -AdapterName pNIC01, pNIC02
Add-NetIntent -Name Compute_Storage -Compute -Storage -AdapterName pNIC03, pNIC04

Fully disaggregated intent

For this intent, compute, storage, and management networks are all managed on different adapters across all cluster nodes.

Fully disaggregated intent

Add-NetIntent -Name Mgmt -Management -AdapterName pNIC01, pNIC02
Add-NetIntent -Name Compute -Compute -AdapterName pNIC03, pNIC04
Add-NetIntent -Name Storage -Storage -AdapterName pNIC05, pNIC06
Add-NetIntent -Name Mgmt -Management -AdapterName pNIC01, pNIC02
Add-NetIntent -Name Compute -Compute -AdapterName pNIC03, pNIC04
Add-NetIntent -Name Storage -Storage -AdapterName pNIC05, pNIC06

Storage-only intent

For this intent, only storage is managed. Management and compute adapters aren't managed by Network ATC.

Storage only intent

Add-NetIntent -Name Storage -Storage -AdapterName pNIC05, pNIC06
Add-NetIntent -Name Storage -Storage -AdapterName pNIC05, pNIC06

Compute and management intent

For this intent, compute and management networks are managed, but not storage.

Management and compute intent

Add-NetIntent -Name Management_Compute -Management -Compute -AdapterName pNIC01, pNIC02
Add-NetIntent -Name Management_Compute -Management -Compute -AdapterName pNIC01, pNIC02

Multiple compute (switch) intents

For this intent, multiple compute switches are managed.

Multiple switches intent

Add-NetIntent -Name Compute1 -Compute -AdapterName pNIC03, pNIC04
Add-NetIntent -Name Compute2 -Compute -AdapterName pNIC05, pNIC06
Add-NetIntent -Name Compute1 -Compute -AdapterName pNIC03, pNIC04
Add-NetIntent -Name Compute2 -Compute -AdapterName pNIC05, pNIC06

Default Network ATC values

This section lists some of the key default values used by Network ATC.

Default values

This section covers additional default values that Network ATC will be setting in versions 22H2 and later.

This section covers additional default values that Network ATC will be setting.

Default VLANs

Applies to: Azure Stack HCI 21H2, 22H2

Network ATC uses the following VLANs by default for adapters with the storage intent type. If the adapters are connected to a physical switch, these VLANs must be allowed on the physical network. If the adapters are switchless, no additional configuration is required.

Adapter Intent Default Value
Management Configured VLAN for management adapters isn't modified
Storage Adapter 1 711
Storage Adapter 2 712
Storage Adapter 3 713
Storage Adapter 4 714
Storage Adapter 5 715
Storage Adapter 6 716
Storage Adapter 7 717
Storage Adapter 8 718
Future Use 719

Consider the following command:

Add-NetIntent -Name MyIntent -Storage -AdapterName pNIC01, pNIC02, pNIC03, pNIC04
Add-NetIntent -Name MyIntent -Storage -AdapterName pNIC01, pNIC02, pNIC03, pNIC04

The physical NIC (or virtual NIC if necessary) is configured to use VLANs 711, 712, 713, and 714 respectively.

Note

Network ATC allows you to change the VLANs used with the StorageVlans parameter on Add-NetIntent.

Automatic storage IP addressing

Applies to: Azure Stack HCI 22H2

Network ATC will automatically configure valid IP Addresses for adapters with the storage intent type. Network ATC does this in a uniform manner across all nodes in your cluster and verifies that the address chosen isn't already in use on the network.

The default IP Address for each adapter on each node in the storage intent will be set up as follows:

Adapter IP Address and Subnet VLAN
pNIC1 10.71.1.X 711
pNIC2 10.71.2.X 712
pNIC3 10.71.3.X 713

To override Automatic Storage IP Addressing, create a storage override and pass the override when creating an intent:

$StorageOverride = New-NetIntentStorageOverrides
$StorageOverride.EnableAutomaticIPGeneration = $false
Add-NetIntent -Name MyIntent -Storage -Compute -AdapterName 'pNIC01', 'pNIC02' -StorageOverrides $StorageOverride

Cluster network settings

Applies to: Azure Stack HCI 22H2

Network ATC configures a set of Cluster Network Features by default. The defaults are listed below:

Property Default
EnableNetworkNaming $true
EnableLiveMigrationNetworkSelection $true
EnableVirtualMachineMigrationPerformance $true
VirtualMachineMigrationPerformanceOption Default is calculated: SMB, TCP or Compression
MaximumVirtualMachineMigrations 1
MaximumSMBMigrationBandwidthInGbps Default is calculated based on set-up

Default Data Center Bridging (DCB) configuration

Network ATC establishes the following priorities and bandwidth reservations. This configuration should also be configured on the physical network.

Policy Use Default Priority Default Bandwidth Reservation
Cluster Cluster Heartbeat reservation 7 2% if the adapter(s) are <= 10 Gbps; 1% if the adapter(s) are > 10 Gbps
SMB_Direct RDMA Storage Traffic 3 50%
Default All other traffic types 0 Remainder

Note

Network ATC allows you to override default settings like default bandwidth reservation. For examples, see Update or override network settings.

Common Error Messages

With the new event logs in 22H2, there are some simplistic troubleshooting methods to identify intent deployment failures. This section outlines some of the common fixes when an issue is encountered. The errors shown below are from the output of the Get-NetIntentStatus cmdlet.

Error: AdapterBindingConflict

Screenshot of Adapter Binding Error.

Scenario 1: An adapter is actually bound to an existing vSwitch that conflicts with the new vSwitch that is being deployed by Network ATC.

Solution: Remove the conflicting vSwitch, then Set-NetIntentRetryState

Scenario 2: An adapter is bound to the component, but not necessarily a vSwitch.

Solution: Disable the vms_pp component (unbind the adapter from the vSwitch) then run Set-NetIntentRetryState.

Error: ConflictingTrafficClass

Screenshot of Conflicting Traffic Class error.

This issue occurs because a traffic class is already configured. This preconfigured traffic class conflicts with the traffic classes being deployed by Network ATC. For example, the customer may have already deployed a traffic class called SMB when Network ATC will deploy a similar traffic class with a different name.

Solution:

Clear the existing DCB configuration on the system then run Set-NetIntentRetryState


Get-NetQosTrafficClass | Remove-NetQosTrafficClass
Get-NetQosPolicy | Remove-NetQosPolicy -Confirm:$false
Get-NetQosFlowControl | Disable-NetQosFlowControl

Error: RDMANotOperational

Screenshot of RDMA Not Operational error.

You may see this message:

  1. If the network adapter uses an inbox driver. Inbox drivers aren't supported and must be updated.

    Solution: Upgrade the driver for the adapter.

  2. If SR-IOV is disabled in the BIOS.

    Solution: Enable SR-IOV for the adapter in the system BIOS

  3. If RDMA is disabled in the BIOS

    Solution: Enable RDMA for the adapter in the system BIOS

Error: InvalidIsolationID

Screenshot of Invalid Isolation ID error.

This message will occur when RoCE RDMA is in use and you have overridden the default VLAN with a value that can't be used with that protocol. For example, RoCE RDMA requires a non-zero VLAN so that Priority Flow Control (PFC) markings can be added to the frame. A VLAN value between 1 - 4094 must be used. Network ATC won't override the value you specified without administrator intervention for several reasons. To resolve this issue:

  1. Choose iWARP as the RDMA (NetworkDirect) protocol

    Solution: If supported by the adapter, Network ATC automatically chooses iWARP as its RDMA protocol which may use a VLAN ID of 0. Remove the override that enforces RoCE as the chosen protocol.

  2. Use the default VLANs

    Solution: We highly recommend using the Network ATC Default VLANs

  3. Use a valid VLAN

    When specifying a VLAN use the -StorageVLANs parameter and specify comma separated values between 1 - 4094.

Next steps