Detecting and correcting cycle slips to minimize system penalty

What is claimed is: 1. An optical system, comprising: an optical receiver configured to: receive a signal with a phase error and pilot symbols, identify, based on the pilot symbols, a cycle slip due to the phase error, the cycle slip being associated with a transition time, determine, based on the pilot symbols, a direction and a center of the cycle slip, generate a rotation value based on the direction and the center of the cycle slip, apply the rotation value to minimize the phase error in the signal except for phase error associated with the transition time of the cycle slip and to generate a modified signal, generate an erase signal based on the transition time and the center of the cycle slip, and use the erase signal to minimize an effect of the phase error associated with the transition time of the cycle slip. 2. The optical system of claim 1 , where the cycle slip is due to a phase of the signal locking at a first phase and then transitioning to and re-locking at a second phase. 3. The optical system of claim 1 , where, when using the erase signal, the optical receiver is further configured to: apply the erase signal to minimize the effect of the phase error associated with the transition time of the cycle slip and to generate a further modified signal, and output the further modified signal. 4. The optical system of claim 1 , where the rotation value includes a value that provides a change in a phase rotation of ninety degrees in an opposite direction of the direction of the cycle slip. 5. The optical system of claim 1 , where the erase signal includes instructions to reduce a reliability value associated with data samples corresponding to the transition time. 6. The optical system of claim 1 , where the optical receiver is further configured to: generate a phase estimate based on the pilot symbols of the signal, filter the phase estimate to eliminate noise in the phase estimate, interpolate the filtered phase estimate to generate phase values, and identify the cycle slip based on the phase values. 7. The optical system of claim 1 , where the signal includes one pilot symbol for every thirty-one data symbols of the signal. 8. An optical receiver, comprising: a first component configured to: receive an optical signal with a phase error and pilot symbols, and convert the optical signal into an electrical signal with the phase error and the pilot symbols; and a second component configured to: receive the electrical signal from the first component, identify, based on the pilot symbols, a cycle slip due to the phase error, the cycle slip being associated with a transition time, determine, based on the pilot symbols, a direction and a center associated with the cycle slip, generate a rotation value based on the direction and the center of the cycle slip, apply the rotation value to minimize the phase error in the electrical signal except for phase error associated with the transition time of the cycle slip and to generate a modified electrical signal, generate an erase signal based on the transition time and the center of the cycle slip, and use the erase signal to minimize an effect of the phase error associated with the transition time of the cycle slip. 9. The optical receiver of claim 8 , where the cycle slip is due to a phase of the optical signal locking at a first phase and then transitioning to and re-locking at a second phase. 10. The optical receiver of claim 8 , further comprising: a third component configured to: receive the erase signal and the modified electrical signal from the pilot phase estimate component, apply the erase signal to reduce the effect of the phase error associated with the transition time of the cycle slip and to generate a further modified electrical signal, and output the further modified electrical signal. 11. The optical receiver of claim 8 , where the rotation value includes a value that provides a change in a phase rotation in an opposite direction of the direction of the cycle slip. 12. The optical receiver of claim 8 , where the erase signal includes instructions to reduce a reliability value associated data samples corresponding to the transition time. 13. The optical receiver of claim 8 , where the second component is further configured to: generate a phase estimate based on the pilot symbols of the electrical signal, filter the phase estimate to eliminate noise in the phase estimate, interpolate the filtered phase estimate to generate phase values, and identify the cycle slip based on the phase values. 14. The optical receiver of claim 8 , where the optical signal includes: four subcarrier signals, and one pilot symbol for every thirty-one data symbols of the optical signal. 15. An optical receiver, comprising: a first component configured to: receive an optical signal with a phase error and pilot symbols, and convert the optical signal into an electrical signal with the phase error and the pilot symbols; a second component configured to: receive the electrical signal from the first component, and generate a phase estimate based on the pilot symbols of the electrical signal; a third component configured to: receive the phase estimate from the second component, and filter the phase estimate to eliminate noise in the phase estimate; a fourth component configured to: receive the filtered phase estimate from the third component, and interpolate the filtered phase estimate to generate phase values; and a fifth component configured to: receive the phase values from the fourth component, identify, based on the phase values, a cycle slip due to the phase error, the cycle slip being associated with a transition time, determine, based on the phase values, a direction and a center of the cycle slip, generate a rotation value based on the direction and the center of the cycle slip, apply the rotation value to minimize the phase error in the electrical signal except for phase error associated with the transition time of the cycle slip and to generate a modified electrical signal, and generate an erase signal based on the transition time and the center of the cycle slip. 16. The optical receiver of claim 15 , where the cycle slip is due to a phase of the optical signal locking at a first phase and then transitioning to and re-locking at a second phase. 17. The optical receiver of claim 15 , further comprising: a sixth component configured to: receive the erase signal and the modified electrical signal from the fifth component, apply the erase signal to eliminate the phase error associated with the transition time of the cycle slip and to generate a further modified electrical signal, and output the further modified electrical signal to a forward error correction (FEC) decoder of the optical receiver. 18. The optical receiver of claim 15 , where the rotation value includes a value that provides a change in a phase rotation of ninety degrees in an opposite direction of the direction of the cycle slip. 19. The optical receiver of claim 15 , where the erase signal includes instructions to zero a reliability value associated data samples corresponding to the transition time. 20. The optical receiver of claim 15 , where the optical signal includes: four subcarrier signals, and one pilot symbol for every thirty-one data symbols of the optical signal.