Tunable coherent optical receiver and method

I claim: 1. A tunable coherent optical receiver comprising: an optical splitter for splitting a received optical wavelength-division multiplexing (WDM) signal into first and second optical signal portions, the received optical WDM signal comprising one or more optical channels carrying high-speed data signals, each of the one or more optical channels being modulated with a low-frequency trace tone uniquely associated with each optical channel of the one or more optical channels; a coherent detection/demodulation circuit (CDC) coupled to the optical splitter for receiving the first optical signal portion and for selectively and coherently demodulating a high-speed data signal, of the high-speed data signals, from one of the one or more optical channels, the CDC comprising a tunable local oscillator (LO) source of an optical LO signal; a trace tone detection circuit (TTDC) coupled to the optical splitter for receiving the second optical signal portion and adapted for detecting a presence of a plurality of low-frequency trace tones and for generating a trace detection signal identifying a respective low-frequency trace tone of the plurality of low-frequency trace tones that are present in the second optical signal, the TTDC comprising a tunable filter for selecting a particular low-frequency trace tone, of the plurality of low-frequency trace tones, and a decoder for decoding transmitter-generated service messages carried by the plurality of low-frequency trace tones and comprising service data includes one or more of configuration, maintenance, or diagnostics information; and an LO control circuit coupled to the tunable LO source for tuning an optical frequency to a selected optical channel that is selected among the one or more optical channels present in the received optical WDM signal based on trace presence information. 2. The tunable coherent optical receiver of claim 1 , wherein the TTDC comprises: a photo detector (PD) for converting the second optical signal portion into an electrical PD signal; and an electronic trace detector for probing the electrical PD signal at a plurality of trace tone frequencies corresponding to a plurality of optical channels for detecting their presence in the received optical WDM signal. 3. The tunable coherent optical receiver of claim 2 , wherein the electronic trace detector comprises a phase lock loop (PLL) circuit. 4. The tunable coherent optical receiver of claim 2 , wherein the electronic trace detector comprises an analog to digital converter and a digital spectrum analyzing logic. 5. The tunable coherent optical receiver of claim 1 , wherein the decoder comprises a delay line, a mixer, and an integrator configured for decoding the plurality of low-frequency trace tones modulated using binary phase shift key (BPSK) encoding. 6. The tunable coherent optical receiver of claim 1 , wherein the decoder comprises a phase detector configured for decoding the plurality of low-frequency trace tones modulated using frequency shift key (FSK) encoding. 7. The tunable coherent optical receiver of claim 1 , further comprising: a control interface coupled to the TTDC and the LO controller for outputting trace tone presence information obtained from the TTDC to an external controller and for receiving, from the external controller, a channel selection signal for tuning the LO frequency to the selected optical channel. 8. The tunable coherent optical receiver of claim 1 , further comprising: a micro-controller coupled to the LO control circuit for providing, to the LO control circuit, a channel selection signal for tuning the LO frequency to the selected optical channel. 9. The tunable coherent optical receiver of claim 8 , wherein the micro-controller comprises hardware or software logic for selecting the selected optical channel based on the trace presence signal received from the TTDC. 10. The tunable coherent optical receiver of claim 1 , wherein the CDC comprises: one or more optical mixers coupled to the optical splitter and the tunable LO source for mixing the LO signal with the first optical signal portion for producing one or more mixed optical signals; and one or more photodetectors for converting the one or more mixed optical signals into the high-speed data signal. 11. A method for operating a coherent receiver in a wavelength-division multiplexing (WDM) system comprising a plurality of optical transmitters for transmitting a plurality of optical channels carrying high-speed data signals, the plurality of optical transmitters being adapted to modulate each of the plurality of optical channels with a respective low-frequency trace tone, of a plurality of low-frequency trace tones, that is uniquely associated with each optical channel of the plurality of optical channels, wherein one or more of the plurality of low-frequency trace tones is modulated to carry messages comprising service data, the method comprising: modulating each of the plurality of optical channels with a low frequency trace tone that is uniquely associated with each optical channel of the plurality of optical channels, wherein one or more of the plurality of low frequency trace tones is modulated to carry the messages comprising service data; splitting, at the coherent receiver, a received WDM optical signal, comprising one or more of the plurality of optical channels, into first and second optical signal portions; directing a first optical signal portion to a coherent detection/demodulation circuit (CDC) comprising a tunable local oscillator (LO) source of an optical LO signal; directing a second optical signal portion to a trace tone detection circuit (TTDC) for detecting a presence of a plurality of low-frequency tones and selecting, using a tunable filter, a particular low-frequency trace tone of the plurality of low-frequency trace tones; de-modulating one of the plurality of low frequency trace tones, detected by the TTDC, for extracting therefrom the messages comprising service data that includes one or more of configuration, maintenance, or diagnostics information of at least one of the system, the plurality of optical transmitters, or the coherent receiver; using trace presence information about the plurality of low frequency trace tones present in the received WDM optical signal to identify the one or more of the of the plurality of optical channels and to select one of the identified one or more of the plurality of optical channels; tuning the LO source to the selected one of the identified one or more of the plurality of optical channels; and mixing the LO optical signal with the second optical signal portion for coherently de-modulating the selected one of the identified one or more of the plurality of optical channels. 12. The method of claim 11 , further comprising: providing the trace presence information or channel presence information to an external controller for selecting the one of the identified one or more of the plurality of optical channels for coherent demodulation. 13. The method of claim 11 , further comprising: using an internal software or hardware logic at the coherent receiver for selecting the one of the identified one or more of the plurality of optical channels for coherent demodulation. 14. A method comprising: splitting, using an optical splitter, a received optical wavelength-division multiplexing (WDM) signal into first and second optical signal portions, the received optical WDM signal comprising one or more optical channels carrying high-speed data signals, each of the one or more optical channels being modulated with a low-frequency trace tone uniquely associate