Systems and methods for communicating among network distribution points

Now, therefore, the following is claimed: 1. A communication system, comprising: a first distribution point positioned along a trunk extending from a network facility, the first distribution point having a first service unit coupled to a first plurality of communication connections of the trunk and configured to receive from the first plurality of communication connections a plurality of data flows destined for customer premises (CP) transceivers at a plurality of customer premises, each of the first plurality of communication connections shared by each of at least a first plurality of the CP transceivers; and a second distribution point positioned along the trunk and having a second service unit coupled to the first service unit via a second plurality of communication connections of the trunk, each of the second plurality of communication connections shared by each of at least a second plurality of the CP transceivers, wherein at least two of the first plurality of communication connections are bonded, thereby forming a first bonding group, wherein the first service unit is configured to employ crosstalk vectoring to cancel crosstalk affecting signals communicated across the first plurality of communication connections, and wherein the first service unit is configured to employ crosstalk vectoring to cancel crosstalk affecting signals communicated across the second plurality of communication connections, wherein the first service unit has forwarding logic, a first bonding engine, and a second bonding engine, wherein the first bonding engine is configured to recover a fragmented data stream carried by the first bonding group, wherein the second bonding engine is configured to bond the second plurality of communication connections, wherein the first service unit has at least one transceiver coupled to at least one of the first plurality of the CP transceivers via at least one drop connection, and wherein the forwarding logic is configured to forward at least one data packet from the recovered data stream to the at least one transceiver and to forward at least one data packet from the recovered data stream to the second bonding engine. 2. A communication system, comprising: a first distribution point positioned along a trunk extending from a network facility, the first distribution point having a first service unit coupled to a first plurality of communication connections of the trunk and configured to receive from the first plurality of communication connections a plurality of data flows destined for customer premises (CP) transceivers at a plurality of customer premises, each of the first plurality of communication connections shared by each of at least a first plurality of the CP transceivers, wherein one of the first plurality of CP transceivers is coupled to the first service unit via a drop connection extending from the first service unit to the one of the first plurality of CP transceivers; and a second distribution point positioned along the trunk and having a second service unit coupled to the first service unit via a second plurality of communication connections of the trunk, each of the second plurality of communication connections shared by each of at least a second plurality of the CP transceivers, wherein the first service unit is configured to employ crosstalk vectoring to cancel crosstalk that couples between the drop connection and at least one of the second plurality of communication connections. 3. The system of claim 1 , wherein the first service unit is configured to use a modulation format for communication across the first plurality of communication connections, and wherein the second service unit is configured to use the modulation format for communication across the second plurality of communication connections. 4. The system of claim 3 , wherein the modulation format is very-high-bit-rate digital subscriber line (VDSL). 5. A method, comprising: receiving, at a first service unit of a first distribution point of a network, a plurality of data flows from a first plurality of communication connections of a network trunk coupled to the first service unit, wherein the data flows are destined for customer premises (CP) transceivers at a plurality of customer premises, and wherein each of the first plurality of communication connections is shared by each of at least a first plurality of the CP transceivers; transmitting at least one of the data flows from the first service unit to a second service unit at a second distribution point of the network via a second plurality of communication connections of the network trunk, wherein each of the second plurality of communication connections is shared by each of at least a second plurality of the CP transceivers; bonding at least two of the first plurality of communication connections, thereby forming a first bonding group; performing crosstalk vectoring to cancel crosstalk affecting signals communicated across the first plurality of communication connections; performing crosstalk vectoring to cancel crosstalk affecting signals communicated across the second plurality of communication connections; bonding at least two of the first plurality of communication connections, thereby forming a second bonding group; recovering at the first service unit a fragmented data stream carried by the first bonding group; transmitting data packets from the recovered data stream to at least one of the first plurality of CP transceivers via at least one drop connection coupled to the first service unit; and transmitting data received from the second bonding group to the second service unit via the second plurality of communication connections. 6. A method, comprising: receiving, at a first service unit of a first distribution point of a network, a plurality of data flows from a first plurality of communication connections of a network trunk coupled to the first service unit, wherein the data flows are destined for customer premises (CP) transceivers at a plurality of customer premises, and wherein each of the first plurality of communication connections is shared by each of at least a first plurality of the CP transceivers, wherein one of the first plurality of CP transceivers is coupled to the first service unit via a drop connection extending from the first service unit to the one of the first plurality of CP transceivers; transmitting at least one of the data flows from the first service unit to a second service unit at a second distribution point of the network via a second plurality of communication connections of the network trunk, wherein each of the second plurality of communication connections is shared by each of at least a second plurality of the CP transceivers; and performing crosstalk vectoring to cancel crosstalk that couples between the drop connection and at least one of the second plurality of communication connections. 7. The method of claim 5 , further comprising bonding at least two of the second plurality of communication connections. 8. The method of claim 5 , further comprising: regenerating data signals received by the first service unit from the second bonding group; and transmitting the regenerated signals to the second service unit via the second plurality of communication connections. 9. The system of claim 1 , wherein at least two of the first plurality of communication connections are bonded, thereby forming a second bonding group. 10. A communication system, comprising: a first distribution point positioned along a trunk extending from a network facility, the first distribution point having a first service unit coupled to a first plurality of communication connections of the trunk and configured to receive from the first plurality of c