System and method for determining engine pull-up threshold

What is claimed is: 1. An engine pull up system for a vehicle having an engine selectively coupled to a motor, comprising: a controller programmed to restart the engine in response to a bypass clutch of a torque converter being locked and a motor torque exceeding an engine pull up threshold based on a maximum available motor torque determined from a virtual impeller speed of the torque converter, wherein the virtual impeller speed is determined from a speed that would have resulted if the bypass clutch of the torque converter was fully open for a turbine speed and a turbine torque. 2. The engine pull up system of claim 1 , wherein the engine pull up threshold is further determined from a virtual hydraulic torque associated with a torque that would result if the bypass clutch of the torque converter was fully open for the turbine speed and the turbine torque. 3. The engine pull up system of claim 1 , wherein the controller is further programmed to restart the engine in response to the bypass clutch of the torque converter being open and the motor torque exceeding a corresponding threshold based on the maximum available motor torque determined from a motor speed. 4. The engine pull up system of claim 1 , wherein the virtual impeller speed is further based on a turbine speed associated with a hydraulic torque value required to keep a turbine torque of the torque converter constant between a torque converter locked state and a torque converter open state. 5. A method for vehicle control comprising: controlling engine pull up in response to a bypass clutch of a torque converter being locked and a motor torque exceeding an engine pull up threshold associated with a maximum available motor torque determined from a virtual impeller speed of the torque converter determined from a speed that would result if the bypass clutch of the torque converter was fully open for a turbine speed and a turbine torque. 6. A method for controlling an engine of a vehicle, comprising: controlling engine pull up responsive to a bypass clutch of a torque converter being locked and a motor torque exceeding an engine pull up threshold associated with a maximum available motor torque determined from a virtual impeller speed of the torque converter; and maintaining operation of the vehicle with the engine off in response to the motor torque being below the engine pull up threshold. 7. The method of claim 5 , wherein the engine pull up threshold is further based on the maximum available motor torque less a change in hydraulic torque required to keep a turbine torque of the torque converter constant during an engine start, and wherein the change in hydraulic torque is determined from a virtual torque ratio across the torque converter. 8. The method of claim 7 , wherein the engine pull up threshold is further based on an inertia associated with a motor and a desired acceleration of the motor determined from the virtual impeller speed and an actual impeller speed of the torque converter. 9. The method of claim 6 , wherein the virtual impeller speed is determined from a turbine speed and a desired slip across the bypass clutch of the torque converter during an engine start, the desired slip across the bypass clutch of the torque converter being based on a driver torque demand and a vehicle speed. 10. The method of claim 6 , wherein the virtual impeller speed is determined from a speed that would result if the bypass clutch of the torque converter was fully open for a turbine speed and a turbine torque. 11. The method of claim 6 , wherein the engine pull up threshold is further based on the maximum available motor torque less a change in hydraulic torque required to keep a turbine torque of the torque converter constant during an engine start, and wherein the change in hydraulic torque is determined from a virtual torque ratio across the torque converter. 12. The method of claim 6 , wherein the engine pull up threshold is further based on an inertia associated with a motor and a desired acceleration of the motor determined from the virtual impeller speed and an actual impeller speed of the torque converter.