System and Method to Produce Tunable Synthesized Optical Frequency

What is claimed is: 1 . A control circuit for generating an optical output at a target frequency, comprising: a micro-ring resonator configured to generate a frequency comb of a plurality of comb frequencies based on a source frequency; a carrier-envelope offset interferometer configured to determine a carrier-envelope offset frequency of the frequency comb; a tunable filter configured to select a subset of comb frequencies of the frequency comb based on the target frequency; and a spectrometer configured to resolve ambiguities in overlap between the subset of comb frequencies and the frequency comb, and refine the subset of comb frequencies to a single comb frequency for output. 2 . The control circuit of claim 1 , wherein the micro-ring resonator is configured to adjust the frequency comb based at least partially on the carrier-envelope offset frequency and the target frequency. 3 . The control circuit of claim 1 , wherein the carrier-envelope offset interferometer is configured to determine the carrier-envelope offset frequency based on a self-referencing scheme. 4 . The control circuit of claim 1 , wherein a frequency value corresponding to the overlap between the subset of comb frequencies and the frequency comb is unambiguously determined at least partially by the spectrometer and adjustments made to a center frequency of the tunable filter. 5 . The control circuit of claim 1 , wherein the source frequency is generated by a single-frequency laser and the target frequency corresponds to a microwave reference input signal. 6 . The control circuit of claim 1 , wherein each of the micro-ring resonator, the carrier-envelope offset interferometer, and the tunable filter is disposed on a photonic substrate, and each of the micro-ring resonator, the carrier-envelope offset interferometer, and the tunable filter is operated at least in part by a corresponding servo disposed on an electronic substrate. 7 . The control circuit of claim 6 , wherein the electronic substrate includes at least a laser servo, a resonator servo, a carrier-envelope offset servo, a filter servo, and a controller configured to operate each of the laser servo, the resonator servo, the carrier-envelope offset servo, and the filter servo. 8 . A controller for generating an optical output at a target frequency using a single-frequency laser and a tunable filter, comprising: a laser module configured to generate a source frequency based at least partially on the target frequency; a resonator module configured to generate a frequency comb of a plurality of comb frequencies based on the source frequency; a carrier-envelope offset module configured to determine a carrier-envelop offset frequency of the frequency comb; and a filter module configured to select one of the comb frequencies of the frequency comb for output based on the target frequency. 9 . The controller of claim 8 , wherein the laser module is operatively coupled to the single-frequency laser, the resonator module is operatively coupled to a micro-ring resonator, the carrier-envelope offset module is operatively coupled to a carrier-envelope offset interferometer, the filter module is operatively coupled to the tunable filter, and the filter module is operatively coupled to a spectrometer. 10 . The controller of claim 9 , wherein the laser module operates the single-frequency laser via a laser servo, the resonator module operates the micro-ring resonator via a resonator servo, the carrier-envelope offset module operates the carrier-envelope offset interferometer via a carrier-envelope offset servo, and the filter module operates the tunable filter via a filter servo. 11 . The controller of claim 8 , wherein the resonator module is configured to adjust the frequency comb based at least partially on the carrier-envelope offset frequency and the target frequency. 12 . The controller of claim 8 , wherein the carrier-envelope offset module is configured to determine the carrier-envelope offset frequency based on a self-referencing scheme. 13 . The controller of claim 8 , wherein the filter module is configured to adjust a center frequency of the tunable filter so as to output one of the comb frequencies of the frequency comb corresponding to the target frequency. 14 . The controller of claim 8 , wherein the target frequency corresponds to a microwave reference input signal. 15 . A controller-implemented method of generating an optical output at a target frequency using a single-frequency laser and a tunable filter, comprising: operating the single-frequency laser to generate a source frequency based at least partially on the target frequency; generating a frequency comb of a plurality of comb frequencies based on the source frequency; determining a carrier-envelope offset frequency based on the frequency comb; and adjusting a center frequency of the tunable filter so as to output one of the comb frequencies of the frequency comb corresponding to the target frequency. 16 . The controller-implemented method of claim 15 , wherein the frequency comb is adjusted based at least partially on the source frequency. 17 . The controller-implemented method of claim 15 , wherein the frequency comb is adjusted based at least partially on the carrier-envelope offset frequency. 18 . The controller-implemented method of claim 15 , wherein the frequency comb is adjusted based at least partially on measurements made by an integrated spectrometer. 19 . The controller-implemented method of claim 15 , wherein the frequency comb is generated using a micro-ring resonator. 20 . The controller-implemented method of claim 15 , wherein the carrier-envelope offset frequency is determined based on a self-referencing scheme.