The present disclosure is directed to a NoC interconnect that consolidates one or more Network on Chip functions into one Network on Chip. The present disclosure is further directed to a Network on Chip (NoC) interconnect comprising a plurality of first agents, wherein each agent can be configured to communicate with other ones of the plurality of first agents. NoC of the present disclosure can further include a second agent configured to perform a NoC function, and a bridge associated with the second agent, wherein the bridge can be configured to packetize messages from the second agent to the plurality of first agents, and to translate messages from the plurality of first agents to the second agent.

Discussed herein is a framework that provisions for customized processing for different classes of traffic. A network device in a communication path between a source host machine and a destination host machine extracts a tag from a packet received by the network device. The packet originates at a source executing on the source host machine and whose destination is the destination host machine. The tag set by the source and indicative of a first traffic class to be associated with the packet, the first traffic class being selected by the source from a plurality of traffic classes. The network device determines, based on the tag, that the first traffic class corresponds to a latency sensitive traffic and processes the packet using one or more settings configured at the network device for processing packets associated with the first traffic class.

An embodiment uses entanglement and quantum teleportation to build a quantum backbone network. A network interface interconnects packetized quantum networks with entanglement-based quantum backbone networks.