Apparatus and methods for reconfigurable optical receivers

The invention claimed is: 1. A demodulator comprising: an input waveguide to receive a wavelength division multiplexed (WDM) input signal; a first plurality of filtering elements, optically coupled to the input waveguide, to couple out of the input waveguide, at a first split ratio substantially equal to or less than 0.5, light at each of a first plurality of possible wavelengths in the WDM input signal; a first detector, optically coupled to the first plurality of filtering elements, to generate a first detector signal in response to the light coupled out of the input waveguide by the first plurality of filtering elements; a second plurality of filtering elements, optically coupled to the input waveguide, to couple out, at the first split ratio, light at each of a second plurality of possible wavelengths in the WDM input signal, the second plurality of possible wavelengths being different than the first plurality of possible wavelengths; a second detector, optically coupled to the second plurality of filtering elements, to generate a second detector signal in response to the light coupled out of the input waveguide by the second plurality of filtering elements; and a first comparator, operably coupled to the first detector and the second detector, to generate a first bit of a demodulated signal of the WDM input signal based on a comparison of the first detector signal and the second detector signal. 2. The demodulator of claim 1 , wherein the WDM input signal is modulated with frequency-shift keying (FSK) modulation at a plurality of carrier wavelengths. 3. The demodulator of claim 2 , further comprising: a noise rejection filtering element, optically coupled to the input waveguide before the first plurality of filtering elements, to reject noise in the WDM input signal, the noise rejection filtering element having an operation wavelength different from the plurality of carrier wavelengths. 4. The demodulator of claim 2 , further comprising: an actuator, operably coupled to the first plurality of filtering elements, to tune a first filtering element in the first plurality of filtering elements between a first operation wavelength matching a first carrier wavelength in the plurality of carrier wavelengths and a second operation wavelength between an adjacent pair of carrier wavelengths in the plurality of carrier wavelengths. 5. A demodulator comprising: an input waveguide to receive a wavelength division multiplexed (WDM) input signal; a first plurality of filtering elements, optically coupled to the input waveguide, to couple out of the input waveguide, at a first split ratio substantially equal to or less than 0.5, light at each of a first plurality of possible wavelengths in the WDM input signal; a first detector, optically coupled to the first plurality of filtering elements, to generate a first detector signal in response to the light coupled out of the input waveguide by the first plurality of filtering elements; a second plurality of filtering elements, optically coupled to the input waveguide, to couple out, at the first split ratio, light at each of a second plurality of possible wavelengths in the WDM input signal, the second plurality of possible wavelengths being different than the first plurality of possible wavelengths; a second detector, optically coupled to the second plurality of filtering elements, to generate a second detector signal in response to the light coupled out of the input waveguide by the second plurality of filtering elements; a first comparator, operably coupled to the first detector and the second detector, to generate a first bit of a demodulated signal of the WDM input signal based on a comparison of the first detector signal and the second detector signal; a third plurality of filtering elements, optically coupled to the input waveguide, to couple out of the input waveguide, at a second split ratio, light at each of a third plurality of possible wavelengths in the WDM input signal; a third detector, optically coupled to the third plurality of filtering elements, to generate a third detector signal in response to the light coupled out of the input waveguide by the third plurality of filtering elements; a fourth plurality of filtering elements, optically coupled to the input waveguide, to couple out, at the second split ratio, light at each of a fourth plurality of possible wavelengths in the WDM input signal, the fourth plurality of possible wavelengths being different than the third plurality of possible wavelengths; a fourth detector, optically coupled to the fourth plurality of filtering elements, to generate a fourth detector signal in response to the light coupled out of the input waveguide by the fourth plurality of filtering elements; and a second comparator, operably coupled to the third detector and the fourth detector, to generate a second bit of the demodulated signal of the WDM input signal based on a comparison of the third detector signal and the fourth detector signal. 6. The demodulator of claim 5 , wherein: the first plurality of possible wavelengths comprises a first wavelength λ 1 and a second wavelength λ 2 ; the second plurality of wavelengths comprises a third wavelength λ 3 and a second wavelength λ 4 ; the third plurality of possible wavelengths comprises the first wavelength λ 1 and the third wavelength λ 3 ; and the fourth plurality of possible wavelengths comprises the second wavelength λ 2 and the fourth wavelength λ 4 . 7. The demodulator of claim 5 , wherein the first split ratio is substantially equal to 0.5 and the second split ratio is substantially equal to 1. 8. The demodulator of claim 1 , further comprising: a differential phase comparison element to receive the WDM input signal, the differential phase comparison element further configured to transmit a first portion of the WDM input signal to the input waveguide and to transmit a second portion of the WDM input signal to a reference input waveguide; and a third plurality of filtering elements, optically coupled to the reference input waveguide and the first detector, to couple out of the reference input waveguide, at a third split ratio, light at each of a third plurality of wavelengths; and a fourth plurality of filtering elements, optically coupled to the reference input waveguide and the second detector, to couple out of the reference input waveguide, at a fourth split ratio, light at each of a fourth plurality of wavelengths. 9. The demodulator of claim 1 , further comprising: a variable optical attenuator, disposed between the first plurality of filtering elements and the first detector, to change an intensity of the light coupled out of the input waveguide by the first plurality of filtering elements. 10. The demodulator of claim 1 , wherein the first plurality of filtering elements comprises a first plurality of ring resonators. 11. The demodulator of claim 10 , further comprising: an actuator, operably coupled to at least one ring resonator in the first plurality of ring resonators, to change a resonant wavelength of the at least one ring resonator. 12. The demodulator of claim 11 , wherein the actuator is configured to change the resonant wavelength by applying at least one of a mechanical force, an electric field, a magnetic field, an acoustic field, or a thermal field to the at least one ring resonator. 13. The demodulator of claim 1 , further comprising: an all-channel filtering element, optically coupled to the input waveguide before the first plurality of filtering elements, to couple out a reference portion of the WDM input signal; a reference detector, optically coupled to the all