Spectrum-aware cross-layer optimization

The invention claimed is: 1. A method for allocating network resources to one or more signals that are to be conveyed over the network, comprising: calculating a transport capacity for a sublink of the network based on a spectral efficiency of at least one subpath included in the sublink, the sublink corresponding to a communicative coupling between a first endpoint of the network and a second endpoint of the network, and the subpath corresponding to a portion of the communicative coupling; and allocating the sublink to at least one signal based on the calculated transport capacity, wherein the step of calculating comprises calculating a range of transport capacities for the sublink of the network based on a spectral efficiency of at least one subpath included in the sublink, and wherein the step of allocating comprises allocating the sublink to the at least one signal based on the calculated range of transport capacities. 2. The method according to claim 1 , wherein the step of calculating comprises calculating a transport capacity for the sublink of the network based on respective spectral efficiencies for two or more subpaths included in the sublink. 3. The method according to claim 1 , wherein the step of calculating further comprises determining an amount of contiguous available spectrum across the subpath. 4. The method according to claim 1 , wherein the sublink and the at least one subpath reside in a transport layer of the network, and the sublink corresponds to a higher level link that resides in a packet layer of the network. 5. The method according to claim 1 , wherein the sublink and the at least one subpath reside in the L1 layer of the open systems interconnection (OSI) model of the network, and the sublink corresponds to higher level link that resides in L3 layer of the OSI model of the network. 6. The method according to claim 1 , wherein the sublink comprises at least one subpath owned by an entity that allocates the network resources and at least one subpath not owned by the entity that allocates the network resources, and wherein the step of calculating comprises calculating a transport capacity for the sublink of the network based on a spectral efficiency of the at least one subpath owned by the entity that allocates the network resources and on a default transport capacity of the at least one subpath not owned by the entity that allocates the network resources. 7. The method according to claim 1 , wherein the transport capacity is calculated in terms of bits per second (bps), and the spectral efficiency is calculated in terms of bits per second per hertz (bps/Hz). 8. The method according to claim 1 , wherein the spectral efficiency is calculated based on at least one or more of a physical characteristic of a transmission line included in the subpath, a transmission protocol implemented on the subpath, or a signal modulation implemented on the subpath. 9. The method according to claim 1 , wherein the spectral efficiency is calculated based on at least a minimum signal-to-noise ratio required for successfully transmitting a signal on the subpath. 10. The method according to claim 1 , wherein the sublink is configured to convey optical signals. 11. The method according to claim 1 , wherein the at least one subpath is configured to convey optical signals. 12. A network sublink comprising at least one subpath, the sublink being allocated to convey one or more signals on the network by performing an operation comprising calculating a transport capacity for the sublink based on a spectral efficiency of the at least one subpath and allocating the sublink to the one or more signals based on the calculated transport capacity, the sublink corresponding to a communicative coupling between a first endpoint of the network and a second endpoint of the network, and the subpath corresponding to a portion of the communicative coupling, wherein calculating a transport capacity for the sublink comprises calculating a range of transport capacities for the sublink based on a spectral efficiency of at least one subpath included in the sublink, and wherein allocating the sublink to the one or more signals comprises allocating the sublink to the one or more signals based on the calculated range of transport capacities. 13. The network sublink according to claim 12 , wherein calculating a transport capacity for the sublink comprises calculating a transport capacity for the sublink based on respective spectral efficiencies for two or more subpaths included in the sublink. 14. The network sublink according to claim 12 , wherein calculating a transport capacity further comprises determining an amount of contiguous available spectrum across the subpath. 15. The network sublink according to claim 12 , wherein the sublink comprises at least one subpath owned by an entity that allocates the network resources and at least one subpath not owned by the entity that allocates the network resources, and wherein calculating comprises calculating a transport capacity for the sublink based on a spectral efficiency of the at least one subpath owned by the entity that allocates the network resources and on a default transport capacity of the at least one subpath not owned by the entity that allocates the network resources. 16. The network sublink according to claim 12 , wherein the spectral efficiency is calculated based on at least one or more of a physical characteristic of a transmission line included in the subpath, a transmission protocol implemented on the subpath, or a signal modulation implemented on the subpath. 17. The network sublink according to claim 12 , wherein the spectral efficiency is calculated based on at least a minimum signal-to-noise ratio required for successfully transmitting a signal on the subpath. 18. A non-transitory computer-readable medium having stored thereon a computer-readable program for performing a method for allocating network resources to convey one or more signals that are to be transmitted over the network, the method comprising: calculating a transport capacity for at least one sublink of the network based on a spectral efficiency of at least one subpath included in the sublink, the sublink corresponding to a communicative coupling between a first endpoint of the network and a second endpoint of the network, and the subpath corresponding to a portion of the communicative coupling; and allocating the sublink to at least one signal based on the calculated transport capacity, wherein the step of calculating comprises calculating a range of transport capacities for the sublink of the network based on a spectral efficiency of at least one subpath included in the sublink, and wherein the step of allocating comprises allocating the sublink to the at least one signal based on the calculated range of transport capacities.