A device that includes a plurality of transceivers configurable to simultaneously operate with a combination of bonded and unbonded transceivers. A first transceiver of the plurality of transceivers is operable at a first data rate, and a second transceiver of the plurality of transceivers is simultaneously operable at a second data rate that is different than the first data rate. The first and second transceivers are operable as bonded transceivers and wherein a third transceiver, of the plurality of transceivers, is simultaneously operable at a third data rate and the third transceiver is not bonded with any other transceiver.

A communication system includes a connection module, a processing module, and K nodes. The connection module is configured to connect the processing module and the K nodes. The processing module includes L communication units, where each of the L communication units corresponds to one node, the L communication units include a first communication unit, and the K nodes include a first node. The first communication unit is configured to process a packet of the first node that corresponds to the first communication unit.

The system and method of utilizing frequency waterfilling and implicit coordination to mitigate signal jamming in Link 16 systems. The system and method of utilizing frequency waterfilling for Link 16 includes updates to both software and firmware. The frequency waterfilling approach for Link 16 modifies the process by which data bits are allocated to hops based on an assessment of hops affected by jamming, thus avoiding portions of the spectrum occupied by a jammer.

A method and apparatus for in-line processing a data packet while routing the packet through a router in a system transmitting data packets between a source and a destination over a network including the router. The method includes receiving the data packet and pre-processing layer header data for the data packet as the data packet is received and prior to transferring any portion of the data packet to packet memory. The data packet is thereafter stored in the packet memory. A routing through the router is determined including a next hop index describing the next connection in the network. The data packet is retrieved from the packet memory and a new layer header for the data packet is constructed from the next hop index while the data packet is being retrieved from memory. The new layer header is coupled to the data packet prior to transfer from the router.

A device that includes a plurality of transceivers configurable to simultaneously operate with a combination of bonded and unbonded transceivers. A first transceiver of the plurality of transceivers is operable at a first data rate, and a second transceiver of the plurality of transceivers is simultaneously operable at a second data rate that is different than the first data rate. The first and second transceivers are operable as bonded transceivers and wherein a third transceiver, of the plurality of transceivers, is simultaneously operable at a third data rate and the third transceiver is not bonded with any other transceiver.

A method implemented in an access node (AN) including receiving a packet for a service on a connection between a subscriber and a service provider or service provider network (SP), replacing a Virtual Local Area Network (VLAN) tag for the subscriber in the packet with a Q-in-Q label that matches a Media Access Control (MAC) address for a residential gateway (RG) in the packet when the packet is received from the RG, wherein the Q-in-Q label comprises a Customer VLAN (C-VLAN) tag that identifies the subscriber and a Service-VLAN (S-VLAN) tag that identifies the SP, and replacing the Q-in-Q label in the packet with a VLAN tag for the subscriber that matches the MAC address for the RG in the packet when the packet is received from the SP.

A method and apparatus for in-line processing a data packet while routing the packet through a router in a system transmitting data packets between a source and a destination over a network including the router. The method includes receiving the data packet and pre-processing layer header data for the data packet as the data packet is received and prior to transferring any portion of the data packet to packet memory. The data packet is thereafter stored in the packet memory. A routing through the router is determined including a next hop index describing the next connection in the network. The data packet is retrieved from the packet memory and a new layer header for the data packet is constructed from the next hop index while the data packet is being retrieved from memory. The new layer header is coupled to the data packet prior to transfer from the router.

A communication system includes a connection module, a processing module, and K nodes. The connection module is configured to connect the processing module and the K nodes. The processing module includes L communication units, where each of the L communication units corresponds to one node, the L communication units include a first communication unit, and the K nodes include a first node. The first communication unit is configured to process a packet of the first node that corresponds to the first communication unit.

An apparatus includes a communication fabric, a plurality of agent circuits, a performance management circuit (PMC), and a debug circuit. The communication fabric may transfer transactions from source circuits to destination circuits. The agent circuits may issue real-time (RT) transactions in accordance with a current available bandwidth of the communication fabric. The PMC may allocate, based on the current available bandwidth, respective bandwidth usage targets to ones of the agent circuits. The debug circuit may access operational states of the agent circuits. A given one of the agent circuits may also, based on a determination that the respective bandwidth usage target is insufficient for current activity, capture a set of current values from one or more registers in the given agent circuit without affecting a state of the registers. The given agent circuit may then send at least a portion of the set of current values to the debug circuit.