Controlling transitions in optically switchable devices

What is claimed is: 1. A method for controlling optical transitions, the method comprising: applying a drive voltage having a preset magnitude to bus bars of an optically switchable device to cause the optically switchable device to transition from an initial optical state toward a target optical state; measuring an open circuit voltage (Voc) between the bus bars of the optically switchable device and/or an amount of charge that has been delivered to the optically switchable device; comparing characteristics of the measured Voc and/or the amount of charge that has been delivered to the optically switchable device to at least one parameter indicative of a target duration of time for the optically switchable device to transition from the initial optical state to the target optical state to form a comparison; modifying the drive voltage to have a modified magnitude, wherein the modified magnitude is determined based at least in part on the comparison; and repeating the applying and the modifying until the target optical state is reached. 2. The method of claim 1 , wherein application of the drive voltage having the modified magnitude changes a duration of time for the optically switchable device to transition from the initial optical state to the target optical state toward the target duration of time. 3. The method of claim 1 , wherein the target duration of time is a canonical duration of time representing a duration of time to transition from the initial optical state to the target optical state for a normally-functioning optically switchable device having material properties similar to the optically switchable device. 4. The method of claim 1 , wherein the at least one parameter indicative of the target duration of time is based at least in part on a canonical Voc curve that indicates a target Voc for the optically switchable device as a function of the drive voltage. 5. The method of claim 4 , wherein the at least one parameter indicative of the target duration of time comprises a slope of the canonical Voc curve. 6. The method of claim 5 , further comprising: repeating the applying and the modifying at least once and identifying a slope of a curve generated based on the Voc measurements; determining that the slope of the curve generated based on the Voc measurements is less than the slope of the canonical Voc curve; and in response to determining that the slope of the curve generated based on the Voc measurements is less than the slope of the canonical Voc curve, increasing the drive voltage. 7. The method of claim 1 , further comprising: prior to (d), determining whether the modified magnitude satisfies a safety criteria, wherein the drive voltage is modified in (d) in response to determining that the modified magnitude satisfies the safety criteria. 8. The method of claim 1 , wherein the at least one parameter indicative of the target duration of time comprises a target amount of charge. 9. The method of claim 8 , further comprising determining, during the comparing, that the amount of charge that has been delivered to the optically switchable device is less than the target amount of charge, wherein the modified magnitude is set as greater than the preset magnitude in response to determining that the amount of charge that has been delivered to the optically switchable device is less than the target amount of charge. 10. The method of claim 1 , further comprising: repeating the applying, the measuring, the comparing, and the modifying two or more times; and after repeating the applying, the measuring, the comparing, and the modifying two or more times, setting the preset magnitude of the drive voltage used in the applying for the optically switchable device to a value based at least in part on the modified magnitude associated with the modified drive voltage used during the modifying for the two or more times that the applying, the measuring, the comparing, and the modifying was repeated. 11. The method of claim 1 , wherein the target duration of time is based, at least in part, on a tint transition time of another optically switchable device. 12. The method of claim 11 , wherein the optically switchable device and the other optically switchable device are similar to each other with respect to at least one material property that comprises: a length of the other optically switchable device, a width of the other optically switchable device, a distance between bus bars, or a combination thereof. 13. The method of claim 11 , wherein the optically switchable device and the other optically switchable device are similar to the optically switchable device with respect to location, are adjacent to and/or proximate to each other, are disposed in a same zone within a facility, or a combination thereof. 14. An apparatus for controlling optical transitions, the apparatus comprising at least one controller configured to: apply, or direct application of, a drive voltage having a preset magnitude to bus bars of an optically switchable device to cause the optically switchable device to transition from an initial optical state toward a target optical state; measure, or direct measurement of, an open circuit voltage (Voc) between the bus bars of the optically switchable device and/or an amount of charge that has been delivered to the optically switchable device; compare, or direct comparison of, characteristics of the measured Voc and/or the amount of charge that has been delivered to the optically switchable device to at least one parameter indicative of a target duration of time for the optically switchable device to transition from the initial optical state to the target optical state to form a comparison; modify, or direct modification of, the drive voltage to have a modified magnitude, wherein the modified magnitude is determined based at least in part on the comparison; and repeat, or direct repetition of, the applying and the modifying until the target optical state is reached. 15. A method for controlling optical transitions of an optically switchable device, the method comprising: obtaining data associated with optical transitions of the optically switchable device and/or previous optical transitions of one or more other optically switchable devices related to the optically switchable device; obtaining a preset magnitude for a drive voltage of the optically switchable device; determining whether to modify the preset magnitude based at least in part on the data obtained; in response to determining that the preset magnitude is to be modified, determining a modified magnitude for the drive voltage based at least in part on the data obtained; and applying a drive voltage having the modified magnitude to bus bars of the optically switchable device. 16. The method of claim 15 , wherein the modified magnitude is determined based on a drive voltage magnitude that causes the optically switchable device and the one or more other optically switchable devices to, when a transition to a target optical state is initiated for the optically switchable device and the one or more other optically switchable devices at a concurrent time point, reach the target optical state at a substantially similar time point. 17. The method of claim 15 , wherein the one or more other optically switchable devices are similar to the optically switchable device with respect to at least one material property that comprises: a length of the one or more other optically switchable devices, a width of the one or more other optically switchable devices, a distance between bus bars, and/or a number of times t