Service Manual
PRIORITY-GROUP mode
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5. Repeat Steps 1 to 4 to configure all remaining dot1p priorities in an ETS priority group.
6. Specify the dot1p priority-to-priority group mapping for each priority.
priority-pgid dot1p0_group_num dot1p1_group_num ...dot1p7_group_num
Priority group range is from 0 to 7. All priorities that map to the same queue must be in the same priority group.
Leave a space between each priority group number. For example: priority-pgid 0 0 0 1 2 4 4 4 in which priority group 0 maps
to dot1p priorities 0, 1, and 2; priority group 1 maps to dot1p priority 3; priority group 2 maps to dot1p priority 4; priority group
4 maps to dot1p priorities 5, 6, and 7.
Dell EMC Networking OS Behavior: A priority group consists of 802.1p priority values that are grouped for similar bandwidth
allocation and scheduling, and that share latency and loss requirements. All 802.1p priorities mapped to the same queue must be
in the same priority group.
Configure all 802.1p priorities in priority groups associated with an ETS output policy. You can assign each dot1p priority to only
one priority group.
By default, all 802.1p priorities are grouped in priority group 0 and 100% of the port bandwidth is assigned to priority group 0.
The complete bandwidth is equally assigned to each priority class so that each class has 12 to 13%.
The maximum number of priority groups supported in ETS output policies on an interface is equal to the number of data queues
(4) (8)on the port. The 802.1p priorities in a priority group can map to multiple queues.
If you configure more than one priority queue as strict priority or more than one priority group as strict priority, the higher
numbered priority queue is given preference when scheduling data traffic.
If multiple lossful priorities are mapped to a single priority group (PG1) and lossless priorities to another priority group (PG0),
then bandwidth split across lossful priorities is not even.
ETS Operation with DCBx
The following section describes DCBx negotiation with peer ETS devices.
In DCBx negotiation with peer ETS devices, ETS configuration is handled as follows:
● ETS TLVs are supported in DCBx versions CIN, CEE, and IEEE2.5.
● The DCBx port-role configurations determine the ETS operational parameters (refer to Configure a DCBx Operation).
● ETS configurations received from TLVs from a peer are validated.
● If there is a hardware limitation or TLV error:
○ DCBx operation on an ETS port goes down.
○ New ETS configurations are ignored and existing ETS configurations are reset to the default ETS settings.
● ETS operates with legacy DCBx versions as follows:
○ In the CEE version, the priority group/traffic class group (TCG) ID 15 represents a non-ETS priority group. Any priority
group configured with a scheduler type is treated as a strict-priority group and is given the priority-group (TCG) ID 15.
Configuring ETS in a DCB Map
A switch supports the use of a DCB map in which you configure enhanced transmission selection (ETS) setting. To configure
ETS parameters, you must apply a DCB map on an interface.
ETS Configuration Notes
ETS provides a way to optimize bandwidth allocation to outbound 802.1p classes of converged Ethernet traffic. Different traffic
types have different service needs. Using ETS, you can create groups within an 802.1p priority class to configure different
treatment for traffics with different bandwidth, latency, and best-effort needs.
When you configure ETS in a DCB map:
● The DCB map associates a priority group with a PFC operational mode (on or off) and an ETS scheduling and bandwidth
allocation. You can apply a DCB map on multiple egress ports.
● Use the ETS configuration associated with 802.1p priority traffic in a DCB map in DCBx negotiation with ETS peers.
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Data Center Bridging (DCB)