Method and system for binary flow turbine control

The invention claimed is: 1. A method for controlling an engine, comprising: transitioning, by adjusting an actuator via a controller, a restriction in exhaust upstream of only a first scroll and not a second scroll of a multi-scroll exhaust turbine based on an indication of operating conditions from one or more sensors; and adjusting a timing of the transitioning via the controller based on an upcoming transmission upshift event or an upcoming transmission downshift event. 2. The method of claim 1 , wherein the adjusting includes, in response to an upcoming transmission event, timing the transitioning to at least partially overlap the transmission event. 3. The method of claim 1 , wherein the adjusting includes, in response to an upcoming transmission event, timing the transitioning to immediately follow the transmission event. 4. The method of claim 1 , wherein, in response to a duration between the transmission event and a request for transitioning restriction being smaller than a threshold, timing the transitioning during the transmission event, and in response to the duration between the transmission event and the request for transitioning restriction being larger than the threshold, timing the transitioning before the transmission event. 5. The method of claim 4 , further comprising, during timing the transitioning during the transmission event, increasing clutch slippage and/or adjusting spark retard during the transitioning, the increasing based on the transitioning. 6. The method of claim 4 , wherein the actuator comprises a scroll valve coupled to the first scroll and where the second scroll is positioned inner to the first scroll, the scroll valve not coupled to the second scroll, and wherein the transitioning restriction in exhaust includes transitioning an opening of the scroll valve. 7. A method for controlling an engine, comprising: transitioning, via a controller, a restriction in exhaust upstream of a first scroll of a multi-scroll exhaust turbine based on an indication of operating conditions from one or more sensors while adjusting an engine actuator via the controller during the transition to maintain engine torque; wherein the engine includes a second scroll inner to the first scroll, and a scroll valve coupled to only the first scroll, and wherein the transitioning includes transitioning an opening of the scroll valve, including at lower turbine speeds, closing the scroll valve to increase restriction, and at higher turbine speeds, opening the scroll valve to decrease restriction, and wherein the adjusting includes, when closing the scroll valve to increase restriction, adjusting the engine actuator to decrease engine dilution, and when opening the scroll valve to decrease restriction, adjusting the engine actuator to increase engine dilution, and wherein the adjusting further includes adjusting one or more of VCT, EGR, valve timing, intake throttle position, wastegate position, and transmission shift schedule. 8. The method of claim 7 , wherein the adjusting further includes, when closing the scroll valve to increase restriction, adjusting the engine actuator to transiently increase engine air flow, and when opening the scroll valve to decrease restriction, adjusting the engine actuator to transiently decrease engine air flow. 9. The method of claim 7 , wherein a timing of the transitioning is based on a transmission event. 10. The method of claim 7 , wherein the engine actuator adjustment is based on the transitioning of the scroll valve opening. 11. The method of claim 10 , wherein the engine actuator adjustment is increased as the transitioning of the scroll valve opening increases. 12. An engine system, comprising: an engine; a turbocharger for providing a boosted aircharge to the engine, the turbocharger including an intake compressor and an exhaust turbine, the exhaust turbine including a first outer and a second inner scroll; a scroll valve coupled between an engine exhaust manifold and an inlet of the first outer scroll; a transmission including a clutch; and a controller with computer readable instructions for, transitioning an opening of the scroll valve responsive to engine operating conditions; timing the transitioning based on a shift schedule of the transmission; and adjusting slippage of the clutch during the transitioning. 13. The system of claim 12 , wherein timing the transitioning includes timing the transitioning to at least partially overlap with the shift schedule of the transmission. 14. The system of claim 12 , wherein an amount of clutch slippage is based on the transitioning of the scroll valve, the amount of clutch slippage increased as the transitioning of the scroll valve increases. 15. The system of claim 12 , wherein the controller includes further instructions for, retarding spark ignition timing in response to reducing scroll valve restriction and advancing spark ignition timing in response to increasing scroll valve restriction, an amount of spark timing adjustment applied increased as the transitioning of the scroll valve increases. 16. The system of claim 12 , wherein an amount of clutch slippage is based on the transitioning of the scroll valve, the amount of clutch slippage increased before and during the scroll valve transition. 17. The system of claim 12 , wherein the controller includes further instructions for, retarding spark ignition timing during the transitioning, an amount of spark retard applied increased as the transitioning of the scroll valve increases.