Detection and alignment of XY skew

What is claimed is: 1. An optical device, comprising: a transmitter to provide an optical signal; and a modulator comprising: two or more tributary modulators to modulate an X polarization channel (X channel) and a Y polarization channel (Y channel) of the optical signal with a training pattern at a first time period, the X channel including an in-phase channel (XI channel) and a quadrature channel (XQ channel), the Y channel including an in-phase channel (YI channel) and a quadrature channel (YQ channel); an interference device to cause the X channel to interfere with the Y channel, the interference device including at least one of: a phase shifter, a polarization rotator, a polarization beam combiner, a polarization controller, or a polarizer; a detector to determine an optical power measurement of the optical signal after the X channel interferes with the Y channel, the optical power measurement being determined at a second time period after the first time period; and a controller to: calculate a skew associated with the optical signal based on the optical power measurement, the skew being associated with the second time period, and the skew being associated with a digital domain, an analog domain, and an optical domain of the optical device; generate a control signal to align the skew associated with the optical signal; and provide the control signal to a tributary modulator, of the two or more tributary modulators, to alter a modulation of the optical signal. 2. The optical device of claim 1 , where the modulator further comprises: a delay circuit to: receive the control signal, and apply a delay to the X channel or the Y channel to align the skew. 3. The optical device of claim 1 , where the two or more tributary modulators are further configured to: provide the optical signal with the training pattern via the XI channel and the YI channel. 4. The optical device of claim 1 , where the two or more tributary modulators are further configured to: provide the optical signal with the training pattern via the XQ channel and the YQ channel. 5. The optical device of claim 1 , where the training pattern is selected to detect: a sub-unit interval skew, and/or a multi-unit interval skew. 6. The optical device of claim 1 , where the controller is further configured to: generating a generate the control signal to: reduce the skew of the X channel and the Y channel, or interleave the X channel and the Y channel. 7. The optical device of claim 1 , where the modulator is to: modulate the optical signal based on: a dual-polarization binary phase shift keying, and/or a dual-polarization quadrature amplitude modulation. 8. The optical device of claim 1 , where the controller is further configured to: determine that a measurement range associated with the training pattern is insufficient to detect the skew; and cause the training pattern to be altered to increase the measurement range. 9. The optical device of claim 1 , where the controller is further configured to: determine that an XY skew of the optical signal satisfies a threshold; and facilitate transmission of information based on determining that the XY skew of the optical signal satisfies the threshold. 10. A device, comprising: an optical source to provide an optical signal; and a parent modulator comprising: an X polarization channel (X channel) modulator; a Y polarization channel (Y channel) modulator, the X channel modulator and Y channel modulator being to modulate an X channel and a Y channel of the optical signal with a training pattern at a first time period; an interference device to cause the X channel to interfere with the Y channel, the interference device including at least one of: a phase shifter, a polarization rotator, a polarization beam combiner, a polarization controller, or a polarizer; a detector to determine an optical power measurement of the optical signal after the X channel interferes with the Y channel, the optical power measurement being determined at a second time period after the first time period; and a control device to: calculate a skew associated with the optical signal based on the optical power measurement, the skew being associated with the second time period, and the skew being associated with a digital domain, an analog domain, and an optical domain of the device; generate a control signal to align the skew associated with the optical signal; and provide the control signal to one of the X channel modulator or the Y channel modulator to alter a modulation of the optical signal. 11. The device of claim 10 , where the X channel modulator further comprises: an in-phase channel (I channel) modulator; and a quadrature channel (Q channel) modulator. 12. The device of claim 10 , where the Y channel modulator further comprises: an in-phase channel (I channel) modulator; and a quadrature channel (Q channel) modulator. 13. The device of claim 10 , where the control device is further configured to: determine that an XY skew of the optical signal satisfies a threshold; and facilitate transmission of information based on determining that the XY skew of the optical signal satisfies the threshold. 14. The device of claim 10 , where the interference device is further configured to: cause a portion of the X channel of the optical signal to interfere with a portion of the Y channel of the optical signal; and where the detector is further to: perform a power measurement of the optical signal after the portion of the X channel interferes with the portion of the Y channel. 15. The device of claim 10 , where the parent modulator is to: modulate the optical signal based on at least one of: a dual-polarization binary phase shift keying, or a dual-polarization quadrature amplitude modulation. 16. The device of claim 10 , where the parent modulator further comprises: a delay circuit to: receive the control signal, and apply a delay to the X channel or the Y channel to align the skew. 17. An optical device, comprising: a modulator to: receive an optical signal; modulate the optical signal to include a first channel and a second channel; modulate the optical signal, at a first time period, based on a training pattern associated with detecting a skew; cause the first channel to interfere with the second channel; determine a power measurement of the optical signal after the first channel interferes with the second channel, the power measurement being determined at a second time period after the first time period; determine the skew associated with the optical signal based on the power measurement and the training pattern, the skew being associated with the second time period, and the skew being associated with a digital domain, an analog domain, and an optical domain of the optical device; generate a time delay to align the skew associated with the optical signal; and provide the time delay to the first channel or the second channel to alter a modulation of the optical signal. 18. The optical device of claim 17 , where the first channel is a first polarization channel, the second channel is a second polarization channel, and the skew is a polarization skew; and where the modulator is further configured to: configure an interference device, such that the first polarization channel and the second polarization channel interfere when combined; and combine the first polarization channel and the second polarization channel.