External cavity laser based wavelength division multiplexing superchannel transceivers

What is claimed is: 1. A semiconductor chip configured to form a superchannel, the semiconductor chip comprising: a plurality of laser cavities including a first laser cavity, a next laser cavity, through a last laser cavity; a wavelength division multiplexing (WDM) multiplexer; a plurality of modulators including a first modulator, a next modulator, through a last modulator, each of the plurality of modulators having a direct input, an add port, and an output; and a concatenated arrangement of the plurality of laser cavities to form the superchannel, the concatenated arrangement including: the last laser cavity coupled to the direct input of the last modulator, and the output of the last modulator coupled to the add port of the next modulator; the next laser cavity coupled to the direct input of the next modulator, and the output of the next modulator coupled to the add port of the first modulator; and the first laser cavity coupled to the direct input of the first modulator, and the output of the first modulator coupled to one input of the WDM multiplexer, thus forming the superchannel being input into the one input of the WDM multiplexer. 2. The semiconductor chip of claim 1 , wherein another concatenated arrangement of another plurality of laser cavities forms another superchannel, the another superchannel being input into another input of the WDM multiplexer. 3. The semiconductor chip of claim 1 , wherein the WDM multiplexer has a plurality of inputs, each of the plurality of inputs being coupled to respective superchannels. 4. The semiconductor chip of claim 3 , wherein the respective superchannels are individually formed by concatenated arrangements of a different plurality of laser cavities. 5. The semiconductor chip of claim 1 , wherein each of the plurality of laser cavities includes: an optical gain chip attached to a semiconductor substrate; and an integrated photonic circuit on the semiconductor substrate, the optical gain chip optically coupled to the integrated photonic circuit thereby forming a laser cavity. 6. The semiconductor chip of claim 5 , wherein the integrated photonic circuit comprises: an active intra-cavity thermo-optic optical phase tuner element; an intra-cavity optical band-pass filter; and an output coupler band-reflect optical grating filter with passive phase compensation. 7. The semiconductor chip of claim 1 , wherein the WDM multiplexer is a course wavelength division multiplexing multiplexer or a dense wavelength division multiplexing multiplexer. 8. The semiconductor chip of claim 1 , further comprising a microcontroller configured to calibrate the plurality of laser cavities to a WDM multiplexer pass band of the WDM multiplexer according to a self-calibration routine; wherein, during the self-calibration routine, the microcontroller is configured to calibrate individual laser wavelengths of the plurality of laser cavities to either a blue edge or a red edge of the WDM multiplexer pass band of the WDM multiplexer; and wherein the superchannel is formed by the individual laser wavelengths respectively of the plurality of laser cavities. 9. The semiconductor chip of claim 8 , wherein, after performing the self-calibration routine, the microcontroller is configured to provide offsets between the individual laser wavelengths of the plurality of laser cavities in the superchannel.