Flexible TWDM PON with load balancing and power saving

What is claimed is: 1. An apparatus comprising: an arrayed waveguide grating (AWG) comprising a plurality of AWG ports; a power splitter comprising a plurality of splitter ports; and a plurality of optical interleavers, each coupled to a respective AWG port and a respective splitter port, for directing incoming optical signals to one of the AWG and the power splitter; an optical line terminal (OLT) comprising a plurality of transceiver modules configured to communicate with a plurality of sets of optical network units (ONUs) via at least the optical interleavers, wherein the plurality of transceiver modules comprise one or more transceiver modules, each configured to: transmit optical signals with a first set of wavelengths that are directed by a first optical interleaver of the plurality of optical interleaves to the respective AWG port; and transmit optical signals with a second set of wavelengths that are directed by the first optical interleaver to the respective splitter port, wherein the second set of wavelengths are shifted with respect to the first set of wavelengths, wherein the AWG and the power splitter are configured to communicate with the plurality of sets of ODNs via a plurality of optical distribution networks (ODNs), wherein each set of ONUs is communicated via a respective ODN, wherein optical signals entering an AWG port are directed to one ODN, and wherein optical signals entering a splitter port are directed to two or more of the ODNs. 2. The apparatus of claim 1 , wherein the AWG is a cyclic AWG, wherein the plurality of AWG ports comprises multiple input ports and multiple output ports, wherein the input ports are coupled to the plurality of optical interleavers, and wherein the output ports are configured to couple to the ODNs. 3. The apparatus of claim 1 , wherein each wavelength in the first set of wavelengths and each wavelength in the second set of wavelengths is separated by a substantially equal channel spacing, and wherein the second set of wavelengths are shifted with respect to the first set of wavelengths by half of the channel spacing. 4. The apparatus of claim 1 , wherein each of the one or more transceiver modules is a time and wavelength division multiplexed (TWDM) transceiver module configured to communicate with the plurality of sets of ONUs via the plurality of ODNs. 5. The apparatus of claim 1 , wherein the OLT further comprises one or more processors coupled to the plurality of transceiver modules and configured to: determine that data traffic in a first ODN is below a first threshold and that data traffic in a second ODN is above a second threshold; and instruct, based upon the determination of the data traffic, a transceiver module to be tuned in wavelength such that the transceiver module, originally communicating with a first set of ONUs via a first ODN, communicates with at least some of a second set of ONUs via a second ODN. 6. The apparatus of claim 1 , wherein the OLT is configured to: determine that one or more transceivers in a second transceiver module have failed; and instruct, upon the determination of transceiver failure, a first transceiver module to be tuned in wavelength such that the first transceiver module, originally communicating with a first set of ONUs via a first ODN, communicates with at least some of a second set of ONUs via a second ODN. 7. The apparatus of claim 1 , wherein the OLT is configured to turn off transceivers in a transceiver module when an ODN corresponding to the transceiver module has data traffic, and wherein transmitting the optical signals with the second set of wavelengths at least partially maintains data communication with the set of ONUs via the ODN corresponding to the transceiver module. 8. The apparatus of claim 7 , wherein turning off the transceivers leaves only one of the plurality of transceiver modules on and all other transceiver modules off, and wherein the transceiver module remaining on is configured to communicate with the plurality of sets of ONUs via the plurality of ODNs.