Optical modulator and optical modulator driver devices and methods utilizing independent arm bias to mitigate fabrication errors

What is claimed is: 1. An optical modulator device, comprising: a first optical waveguide arm comprising one or more optical phase shifters and configured to receive a first bias voltage V bias1 ; a second optical waveguide arm comprising one or more optical phase shifters and configured to receive a second bias voltage V bias2 ; and a driver coupled to both the first optical waveguide arm and the second optical waveguide arm and comprising a current offset control circuit operable for providing V bias1 and V bias2 , wherein the driver has a differential output comprising a first output transistor Q 1 and a second output transistor Q 2 that provide the first optical waveguide arm and the second optical waveguide arm with different direct current (DC) currents to set V bias1 and V bias2 from a single bias voltage V b , wherein the first bias voltage V bias1 and the second bias voltage V bias2 are dissimilar based on the different DC currents from the current offset control circuit connected to the driver, such that the first optical waveguide arm and the second optical waveguide arm exhibit one of a same phase modulation and a predetermined different phase modulation. 2. The optical modulator device of claim 1 , wherein V bias1 and V bias2 are selected such that the corresponding slopes Vπ of the associated phase shift versus applied bias voltage curves are equal or have a controlled difference. 3. The optical modulator device of claim 1 , wherein V bias1 and V bias2 are selected such that each is equidistant from an intermediate predetermined bias voltage. 4. The optical modulator device of claim 1 , wherein the optical modulator device is operable for compensating for one or more of a manufacturing error in either the first optical waveguide arm or the second optical waveguide arm, a manufacturing error in either a first termination resistor R T1 or a second termination resistor R T2 , and a manufacturing error in either the first output transistor Q 1 or the second output transistor Q 2 of the open collector driver. 5. The optical modulator device of claim 1 , further comprising third transistor Q 3 and fourth transistor Q 4 that provide i Offset1 and i Offset2 to set V bias1 and V bias2 . 6. The optical modulator device of claim 1 , wherein the driver comprises one of an open collector driver and a back-terminated differential driver. 7. The optical modulator device of claim 1 , wherein current Q 1 and current Q 2 are sourced from independent current sources. 8. The optical modulator device of claim 1 , wherein the optical modulator device is a silicon photonics series push-pull (SPP) optical modulator device utilizing one of a nppn configuration and a pnnp configuration. 9. A method for utilizing an optical modulator device, comprising: applying a first bias voltage V bias1 to a first optical waveguide arm comprising one or more optical phase shifters; applying a second bias voltage V bias2 to a second optical waveguide arm comprising one or more optical phase shifters; and coupling a driver to both the first optical waveguide arm and the second optical waveguide arm comprising a current offset control circuit operable for providing V bias1 and V bias2 , wherein the driver has a differential output comprising first output transistor Q 1 and second output transistor Q 2 that provide the first optical waveguide arm and the second optical waveguide arm with different direct current (DC) currents to provide V bias1 and V bias2 from a single bias voltage V b wherein the first bias voltage V bias1 and the second bias voltage V bias2 are dissimilar based on the different DC currents from the current offset control circuit connected to the driver, such that the first optical waveguide arm and the second optical waveguide arm exhibit one of a same phase modulation and a predetermined different phase modulation. 10. The optical modulator method of claim 9 , wherein V bias1 and V bias2 are selected such that the corresponding slopes Vπ of the associated phase shift versus applied bias voltage curves are equal or have a controlled difference. 11. The optical modulator method of claim 9 , wherein V bias1 and V bias2 are selected such that each is equidistant from an intermediate predetermined bias voltage. 12. The optical modulator method of claim 9 , wherein the optical modulator device is operable for compensating for one or more of a manufacturing error in either the first optical waveguide arm or the second optical waveguide arm, a manufacturing error in either a first termination resistor R T1 or a second termination resistor R T2 , and a manufacturing error in either the first output transistor Q 1 or the second output transistor Q 2 of the open collector driver. 13. The optical modulator method of claim 9 , further comprising providing third transistor Q 3 and fourth transistor Q 4 that provide i Offset1 and i Offset2 to set V bias1 and V bias2 . 14. The optical modulator method of claim 9 , wherein the driver comprises one of an open collector driver and a back-terminated differential driver. 15. The optical modulator method of claim 9 , wherein current Q 1 and current Q 2 are sourced from independent current sources. 16. The optical modulator method of claim 9 , wherein the optical modulator device is a silicon photonics series push-pull (SPP) optical modulator device utilizing one of a nppn configuration and a pnnp configuration. 17. An optical modulator driver device, comprising: a driver connected to a current offset control circuit operable for providing a first bias voltage V bias1 and a second bias voltage V bias2 ; a first optical waveguide arm coupled to the driver via a first output transistor Q 1 coupled to the current offset control circuit and comprising one or more optical phase shifters and configured to receive the first bias voltage V bias1 ; and a second optical waveguide arm coupled to the driver via a second output transistor Q 2 coupled to the current offset control circuit and comprising one or more optical phase shifters and configured to receive the second bias voltage V bias2 ; wherein the driver comprises a differential output comprising the first output transistor Q 1 and the second output transistor Q 2 that provide the first optical waveguide arm and the second optical waveguide arm with different direct current (DC) currents to set V bias1 and V bias2 from a single bias voltage V b ; wherein the first bias voltage V bias1 and the second bias voltage V bias2 are dissimilar based on the different DC currents from the current offset control circuit connected to the driver, such that the first optical waveguide arm and the second optical waveguide arm exhibit one of a same phase modulation and a predetermined different phase modulation. 18. The optical modulator driver device of claim 17 , wherein V bias1 and V bias2 are selected such that the corresponding slopes Vπ of the associated phase shift versus applied bias voltage curves are equal or have a controlled difference. 19. The optical modulator driver device of claim 17 , wherein V bias1 and V bias2 are selected such that each is equidistant from an intermediate predetermined bias voltage. 20. The optical modulator driver device of claim 17 , wherein the optical modulator driver device is operable for compensating for one or more of a manufacturing error in either the first optical waveguide arm or the second optical waveguide arm, a manufacturing error in either a first terminat