Multicast packet routing via crossbar bypass paths

What is claimed is: 1. A method of routing data to a plurality of output terminals via an integrated switch router, wherein the integrated switch router comprises a broadcast network, a crossbar switch having a crossbar and a plurality of crossbar bypass lines, and a plurality of multicast replication buffers communicatively connected to the broadcast network, wherein each of the plurality of multicast replication buffers respectively corresponds to one of the plurality of crossbar bypass lines, and wherein the method comprises: receiving a multicast packet from an input terminal; forwarding a payload of the multicast packet through the broadcast network; forwarding each header of the multicast packet through the broadcast network; and forwarding, by operation of one or more processors, replicated copies of the multicast packet through the crossbar switch to the plurality of output terminals, wherein at least one of the replicated copies of the multicast packet is transmitted from a first multicast replication buffer of the plurality of multicast replication buffers to a first output terminal of the plurality of output terminals via a first crossbar bypass line of the plurality of crossbar bypass lines that corresponds to the first multicast replication buffer. 2. The method of claim 1 , wherein forwarding the payload of the multicast packet through the broadcast network comprises facilitating a broadcast of the payload to a payload queue of each of the plurality of multicast replication buffers. 3. The method of claim 1 , further comprising: forwarding data via the crossbar in parallel with a replicated copy of the multicast packet forwarded via a crossbar bypass line among the plurality of crossbar bypass lines. 4. The method of claim 1 , wherein the crossbar connects each input among a plurality of inputs of the crossbar switch to each output among a plurality of outputs of the crossbar switch, and wherein each of the plurality of crossbar bypass lines connects a single input among the plurality of inputs to a single output among the plurality of outputs. 5. A method of routing data to a plurality of output terminals via an integrated switch router, wherein the integrated switch router comprises a broadcast network, a crossbar switch having a crossbar and a plurality of crossbar bypass lines, and a plurality of multicast replication buffers communicatively connected to the broadcast network, wherein each of the plurality of multicast replication buffers respectively corresponds to one of the plurality of crossbar bypass lines, and wherein the method comprises: receiving a multicast packet from an input terminal; forwarding a payload of the multicast packet through the broadcast network; forwarding each header of the multicast packet through the broadcast network; and forwarding, by operation of one or more processors, replicated copies of the multicast packet through the crossbar switch to the plurality of output terminals, wherein forwarding each header of the multicast packet through the broadcast network comprises, for each header of the multicast packet: upon determining that a header queue of one of the multicast replication buffers corresponding to a crossbar bypass line among the plurality of crossbar bypass lines having a path to a destination output terminal designated in the header is available, facilitating transmission of the header to the corresponding multicast replication buffer, and storing the header in the header queue of the corresponding multicast replication buffer; and upon determining that the header queue of the one of the multicast replication buffers corresponding to the crossbar bypass line among the plurality of crossbar bypass lines having the path to the destination output terminal is not available, facilitating transmission of the header to a multicast replication buffer among the plurality of multicast replication buffers having a header queue with a lowest backlog, and storing the header in the header queue with the lowest backlog. 6. The method of claim 5 , wherein forwarding the payload of the multicast packet through the broadcast network comprises facilitating a broadcast of the payload to a payload queue of each of the plurality of multicast replication buffers. 7. The method of claim 5 , wherein the crossbar connects each input among a plurality of inputs of the crossbar switch to each output among a plurality of outputs of the crossbar switch, and wherein each of the plurality of crossbar bypass lines connects a single input among the plurality of inputs to a single output among the plurality of outputs. 8. The method of claim 5 , further comprising: forwarding data via the crossbar in parallel with a replicated copy of the multicast packet forwarded via a crossbar bypass line among the plurality of crossbar bypass lines. 9. A method of routing data to a plurality of output terminals via an integrated switch router, wherein the integrated switch router comprises a broadcast network, a crossbar switch having a crossbar and a plurality of crossbar bypass lines, and a plurality of multicast replication buffers communicatively connected to the broadcast network, wherein each of the plurality of multicast replication buffers respectively corresponds to one of the plurality of crossbar bypass lines, and wherein the method comprises: receiving a multicast packet from an input terminal; forwarding a payload of the multicast packet through the broadcast network; forwarding each header of the multicast packet through the broadcast network; and forwarding, by operation of one or more processors, replicated copies of the multicast packet through the crossbar switch to the plurality of output terminals, wherein forwarding replicated copies of the multicast packet through the crossbar switch to the plurality of output terminals comprises, for each header of the multicast packet: facilitating replication of a copy of the multicast packet at the multicast replication buffer at which the header is stored; upon determining that the multicast replication buffer at which the header is stored corresponds to a crossbar bypass line among the plurality of crossbar bypass lines having a path to a destination output terminal designated in the header, facilitating transmission of the replicated copy to the destination output terminal via the corresponding crossbar bypass line; and upon determining that the multicast replication buffer at which the header is stored does not correspond to a crossbar bypass line among the plurality of crossbar bypass lines having a path to the destination output terminal, facilitating transmission of the replicated copy to the destination output terminal via the crossbar. 10. The method of claim 9 , wherein forwarding the payload of the multicast packet through the broadcast network comprises facilitating a broadcast of the payload to a payload queue of each of the plurality of multicast replication buffers. 11. The method of claim 9 , wherein the crossbar connects each input among a plurality of inputs of the crossbar switch to each output among a plurality of outputs of the crossbar switch, and wherein each of the plurality of crossbar bypass lines connects a single input among the plurality of inputs to a single output among the plurality of outputs. 12. The method of claim 9 , further comprising: forwarding data via the crossbar in parallel with a replicated copy of the multicast packet forwarded via a crossbar bypass line among the plurality of crossbar bypass lines.