Powertrain and control method with selective pursuit of optimal torque targets

The invention claimed is: 1. A method for controlling a powertrain of a vehicle, comprising: calculating, via a controller, an optimal torque target for the powertrain as a function of system limits of the vehicle; commanding, via transmission of an output torque signal by the controller, an actual output torque of the powertrain to pursue or follow the calculated optimal torque target during a steady-state torque request condition; detecting a predetermined vehicle event via the controller during the steady-state torque request condition; and shaping the output torque signal via the controller using a variable gain factor in response to detection of the predetermined vehicle event to allow the output torque signal, and thus the actual output torque of the transmission, to temporarily deviate from the calculated optimal torque target during the steady-state torque request condition. 2. The method of claim 1 , wherein the powertrain is a hybrid electric powertrain having an energy storage system, and wherein the system limits include an electrical power limit of the energy storage system. 3. The method of claim 1 , wherein shaping the output torque signal includes preventing the output torque signal from changing in a direction opposite to a direction of the steady-state torque request. 4. The method of claim 1 , wherein the predetermined vehicle event is an active fuel management event. 5. The method of claim 4 , wherein the active fuel management event includes a selective deactivation of one or more cylinders of an engine of the vehicle. 6. The method of claim 1 , wherein the vehicle includes an engine with a turbocharger, and wherein the predetermined vehicle event is an activation or deactivation of the turbocharger. 7. The method of claim 1 , wherein the predetermined vehicle event is a threshold increase in a power load of the vehicle. 8. The method of claim 1 , wherein the powertrain is a hybrid powertrain having an engine and an energy storage system with a state of charge, and wherein calculating an optimal torque target includes determining the optimal torque target as a function of an optimal power level of the engine and energy storage system. 9. A powertrain comprising: a torque generating device having a calibrated power limit; and a controller in communication with the torque generating device that is programmed to: calculate an optimal torque target for the powertrain as a function of system limits of the powertrain, wherein the system limits include the calibrated power limit; command, via transmission of an output torque signal, an actual output torque of the powertrain to pursue or follow the calculated optimal torque target during a steady-state torque request condition; detect a predetermined vehicle event during the steady-state torque request condition; and shape the output torque signal using a variable gain factor in response to detection of the predetermined vehicle event to allow the output torque signal to temporarily deviate from the calculated optimal torque target during the steady-state torque request condition. 10. The powertrain of claim 9 , wherein the torque generating device includes an electric machine, the powertrain further comprising: an energy storage system that is electrically connected to the electric machine, and that has a calibrated electrical power limit as the calibrated power limit. 11. The powertrain of claim 9 , wherein the controller is programmed to shape the output torque signal by preventing the output torque signal from changing in a direction opposite to a direction of the steady-state torque request. 12. The powertrain of claim 9 , wherein the predetermined vehicle event is an active fuel management event. 13. The powertrain of claim 12 , wherein the torque generating device includes an engine having cylinders, and wherein the active fuel management event includes a selective deactivation of one or more of the cylinders. 14. The powertrain of claim 9 , wherein the torque generating device includes an engine having a turbocharger, and wherein the predetermined vehicle event is an activation or deactivation of the turbocharger. 15. The powertrain of claim 9 , wherein the predetermined vehicle event is a threshold increase in an electrical power load of the vehicle. 16. The powertrain of claim 9 , wherein the torque generating device includes an engine, further comprising an energy storage system having a state of charge, and wherein the controller is configured to calculate the optimal torque target as a function of an optimal power level of each of the engine and the energy storage system.