It is determined whether a packet is a multicast packet, and an index to a database is selected from i) a first candidate index determined based on header information of the packet, or ii) a second candidate index determined based on the header information, based on whether the packet is a multicast packet. Information is retrieved from the database using the index, and the header information is compared with information retrieved from the database. Further information retrieved from the database is used to determine one or more ports via which the packet should be transmitted when the header information matches the information retrieved from the database.

A packet is received via a port of the network device, and a database lookup is performed using header information of the packet. A priority associated with the packet is determined, and it is determined whether the priority is associated with a particular communication protocol that provides guaranteed delivery, defined latency, and/or defined throughput. When it is determined that the priority is associated with the particular communication protocol, i) it is determined, based on the database lookup, whether a destination address (DA) of the packet is associated with the particular communication protocol, and ii) when it is determined that the DA of the packet is associated with the particular communication protocol, the packet is prevented from egressing from ports of the network device that are operating according to the particular communication protocol with a frame priority indicator corresponding to a value reserved for the particular communication protocol.

A packet is received via a first port of the network device, and a priority associated with the packet is determined. A first queue indicator from a plurality of queue indicators is determined based on the priority associated with the packet, wherein the plurality of queue indicators correspond to a plurality of priorities for transmitting the packet. A second queue indicator from the plurality of queue indicators is determined based on the priority associated with the packet. A second port that is to transmit the packet is determined, and a configuration of the second port is determined. One of the first queue indicator or the second queue indicator is selected based on the configuration of the second port, and a queue is selected from a plurality of queues associated with the second port based on the selected one of the first queue indicator or the second queue indicator, wherein the plurality of queues correspond to different priorities. Subsequent to enqueuing the packet in the selected queue, the packet is enqueued in the selected queue, and the packet is transmitted via the second port.

It is determined whether a packet is a management-type packet. When it is determined that the packet is a management-type packet, a queue is selected from a plurality of queues corresponding to different priorities, wherein the selected queue corresponds to a defined throughput and/or a defined latency. The packet is enqueued in the selected queue. The packet is transmitted via a port of the network device.

Techniques and devices for service-specific tagging of data by an application processor (AP) of a user equipment device (UE). A first indication may be sent from the UE to a baseband processor (BB) of the UE of one or more quality of service preferences for an upcoming data session, and the BB may configure one or more layers of the BB according to the quality of service preferences. The BB may further communicate with a network to establish protocols for the quality of service preferences. The BB may determine one or more network conditions, and may transmit feedback from the BB to the AP related to the determined network conditions. In response, the AP may send a second indication of one or more updated quality of service preferences to the BB based at least in part on the feedback received from the BB.