Apparatus and method for implementing a photonic radio front end

That which is claimed: 1. An apparatus comprising: a photonic comb filter configured to generate a photonic pulse train at a plurality of carrier frequencies; a photonic upconverter configured to: receive outbound data from a data source, and encode and photomix the outbound data onto each of the carrier frequencies within the plurality of carrier frequencies to generate associated upconverted waveforms on each of the carrier frequencies; a transmit channel selector configured to: receive the upconverted waveforms on each of the carrier frequencies; receive a control signal selecting one or more carrier frequencies for transmission of the outbound data; and filter out the upconverted waveforms at unselected carrier frequencies to provide upconverted waveforms at the selected carrier frequencies; and a transmit antenna configured to wirelessly transmit the upconverted waveforms at the selected carrier frequencies. 2. The apparatus of claim 1 , further comprising processing circuitry configured to provide the outbound data to the photonic upconverter via a digital-to-analog converter that is clocked by the photonic comb filter. 3. The apparatus of claim 1 , wherein the photonic upconverter is configured to employ an electro-optic modulator and a photodiode to encode and photomix the outbound data onto each of the carrier frequencies within the plurality of carrier frequencies. 4. The apparatus of claim 3 , wherein the electro-optic modulator is further configured to eliminate harmonics in the upconverted waveforms using digital transfer function inversion linearization. 5. The apparatus of claim 1 , wherein the transmit channel selector includes a tunable band pass filter. 6. The apparatus of claim 1 , further comprising: processing circuitry; a receive antenna configured to receive an inbound signal having an inbound carrier signal and an inbound encoded waveform; a photonic down sampler configured to: sample the inbound signal to baseband signals using each of the plurality of carrier frequencies provided by the photonic comb filter, and provide each of the baseband signals to the processing circuity to extract inbound data. 7. The apparatus of claim 6 , wherein the processing circuitry employs an analog-to-digital converter to extract the inbound data, and wherein the analog-to-digital converter is clocked by the photonic comb filter. 8. The apparatus of claim 6 , further comprising a receive channel selector configured to filter select carrier frequencies out of the inbound signal. 9. A communication device comprising: a photonic comb filter configured to generate an optical pulse train at a plurality of carrier frequencies; processing circuitry; and a photonic upconverter configured to: receive outbound data from the processing circuitry via a digital-to-analog converter that is clocked by the photonic comb filter, and encode and photomix the outbound data onto each of the carrier frequencies within the plurality of carrier frequencies to generate associated upconverted waveforms on each of the carrier frequencies. 10. The communication device of claim 9 , wherein the photonic upconverter is configured to employ an electro-optic modulator and a photodiode to encode and photomix the outbound data onto each of the carrier frequencies within the plurality of carrier frequencies. 11. The communication device of claim 9 further comprising: a transmit channel selector configured to: receive the upconverted waveforms on each of the carrier frequencies; receive, from the processing circuitry, a control signal selecting one or more carrier frequencies for transmission of the outbound data; and filter out the upconverted waveforms at unselected carrier frequencies to provide upconverted waveforms at the selected carrier frequencies; and a transmit antenna configured to wirelessly transmit the upconverted waveforms at the selected carrier frequencies. 12. The communication device of claim 11 , wherein the transmit channel selector includes a tunable band pass filter. 13. The communication device of claim 9 , further comprising a photonic down sampler configured to: sample an inbound signal to baseband signals using each of the plurality of carrier frequencies provided by the photonic comb filter, and provide each of the baseband signals to the processing circuity to extract inbound data. 14. The communication device of claim 13 , wherein the processing circuitry employs an analog-to-digital converter to extract the inbound data, and wherein the analog-to-digital converter is clocked by the photonic comb filter. 15. The communication device of claim 13 , further comprising a receive channel selector configured to filter select carrier frequencies out of the inbound signal. 16. A method comprising: generating, via an photonic comb filter, an optical pulse train at a plurality of carrier frequencies; receiving, at a photonic upconverter, outbound data from a data source; encoding and photomixing, at the photonic upconverter, the outbound data onto each of the carrier frequencies within the plurality of carrier frequencies to generate associated upconverted waveforms on each of the carrier frequencies; receiving, at a transmit channel selector, the upconverted waveforms on each of the carrier frequencies; receiving, by the transmit channel selector, a control signal selecting one or more carrier frequencies for transmission of the outbound data; filtering out, by the transmit channel selector, upconverted waveforms at unselected carrier frequencies to provide upconverted waveforms at the selected carrier frequencies; and wirelessly transmitting, via a transmit antenna, the upconverted waveforms at the selected carrier frequencies. 17. The method of claim 16 , further comprising providing the outbound data to the photonic upconverter via a digital-to-analog converter that is clocked by the photonic comb filter. 18. The method of claim 17 , further comprising: receiving, via a receive antenna, an inbound signal having an inbound carrier signal and an inbound encoded waveform; sampling, via a photonic down sampler, the inbound signal to baseband signals using each of the plurality of carrier frequencies provided by the photonic comb filter; and providing each of the baseband signals to the processing circuity to extract inbound data. 19. The method of claim 18 , further comprising extracting the inbound data via an analog-to-digital converter clocked by the photonic comb filter.