System, method, and apparatus for operating a high efficiency, high output transmission

What is claimed is: 1. An apparatus, comprising: a shift control logic configured to: provide a first opposing pulse command of a plurality of opposing pulse commands, the first opposing pulse command comprising a first predetermined amount of air above an ambient amount of air in a first closed volume, wherein pressure in the first closed volume opposes movement of a pneumatic shift actuator of a transmission in a shift direction; provide a first actuating pulse command of a plurality of actuating pulse commands, the first actuating pulse command comprising a second predetermined amount of air above an ambient amount of air in a second closed volume, wherein pressure in the second closed volume promotes movement of the pneumatic shift actuator in the shift direction; determine that a synchronizer engagement is imminent, and upon determination, interrupt the first actuating pulse command and provide a second actuating pulse command after a predetermined event; and release pressure in the first closed volume and the second closed volume in response to determining a shift completion event. 2. The apparatus of claim 1 , wherein the predetermined event is a response to a timing of the shift control logic provisioning of the plurality of actuating pulse commands and the plurality of opposing pulse commands. 3. The apparatus of claim 1 , wherein the predetermined event is a response to a pulse timing of the plurality of actuating pulse commands and the plurality of opposing pulse commands. 4. The apparatus of claim 1 , wherein the predetermined event is a response to a timing after the pneumatic shift actuator disengages from a previously engaged gear. 5. The apparatus of claim 1 , wherein the predetermined event is a response to an expiration of a predetermined opposing pulse delay time. 6. The apparatus of claim 1 , wherein the predetermined event is a response to a shift actuator rail position that provides a scheduled amount of opposition to the shift actuator. 7. The apparatus of claim 1 , wherein the predetermined event is a response to a shift rail velocity. 8. The apparatus of claim 1 , wherein the shift control logic is further configured to modulate the first actuating pulse command in response to a previously determined gear departure position value. 9. The apparatus of claim 8 , wherein the modulation is based on a filtering, rate limited, or debounced updating of the previously determined gear departure position value. 10. A system, comprising: a transmission having a pneumatic shift actuator; and a controller, comprising: a shift control logic configured to: provide a first opposing pulse command of a plurality of opposing pulse commands, the first opposing pulse command comprising a first predetermined amount of air above an ambient amount of air in a first closed volume, wherein pressure in the first closed volume opposes movement of a pneumatic shift actuator of a transmission in a shift direction; provide a first actuating pulse command of a plurality of actuating pulse commands, the first actuating pulse command comprising a second predetermined amount of air above an ambient amount of air in a second closed volume, wherein pressure in the second closed volume promotes movement of the pneumatic shift actuator in the shift direction; determine that a synchronizer engagement is imminent, and upon determination, interrupt the first actuating pulse command and provide a second actuating pulse command after a predetermined event; and release pressure in the first closed volume and the second closed volume in response to determining a shift completion event. 11. The system of claim 10 , wherein the predetermined event is a response to a timing of the shift control logic provisioning of the plurality of actuating pulse commands and the plurality of opposing pulse commands. 12. The system of claim 10 , wherein the predetermined event is a response to a pulse timing of the plurality of actuating pulse commands and the plurality of opposing pulse commands. 13. The system of claim 10 , wherein the predetermined event is a response to a timing after the pneumatic shift actuator disengages from a previously engaged gear. 14. The system of claim 10 , wherein the predetermined event is a response to an expiration of a predetermined opposing pulse delay time. 15. The system of claim 10 , wherein the predetermined event is a response to a shift actuator rail position that provides a scheduled amount of opposition to the shift actuator. 16. The system of claim 10 , wherein the predetermined event is a response to a shift rail velocity. 17. The system of claim 10 , wherein the shift control logic is further configured to modulate the first actuating pulse command in response to a previously determined gear departure position value. 18. The system of claim 17 , wherein the modulation is based on a filtering, rate limited, or debounced updating of the previously determined gear departure position value. 19. A method, comprising: providing a first opposing pulse command of a plurality of opposing pulse commands, the first opposing pulse command comprising a first predetermined amount of air above an ambient amount of air in a first closed volume, wherein pressure in the first closed volume opposes movement of a pneumatic shift actuator of a transmission in a shift direction; providing a first actuating pulse command of a plurality of actuating pulse commands, the first actuating pulse command comprising a second predetermined amount of air above an ambient amount of air in a second closed volume, wherein pressure in the second closed volume promotes movement of the pneumatic shift actuator in the shift direction; determining that a synchronizer engagement is imminent, and upon determination, interrupting the first actuating pulse command and providing a second actuating pulse command after a predetermined event; and releasing pressure in the first closed volume and the second closed volume in response to determining a shift completion event. 20. The method of claim 19 , wherein the predetermined event comprises one or more of: a response to a timing of a shift control logic provisioning of the plurality of actuating pulse commands and the plurality of opposing pulse commands; a response to a pulse timing of the plurality of actuating pulse commands and the plurality of opposing pulse commands; a response to a timing after the pneumatic shift actuator disengages from a previously engaged gear; a response to an expiration of a predetermined opposing pulse delay time; a response to a shift actuator rail position that provides a scheduled amount of opposition to the shift actuator; and a response to a shift rail velocity; wherein the shift control logic is further configured to modulate the first actuating pulse command in response to a previously determined gear departure position value, and wherein the modulation is based on a filtering, rate limited, or debounced updating of the previously determined gear departure position value.