Method and apparatus for controlling a multi-mode powertrain system including an engine having stop/start capability

The invention claimed is: 1. A method for controlling a multi-mode powertrain system including an internal combustion engine, the method comprising: circulating coolant to a heater core via an engine fluidic circuit that includes a water jacket of the internal combustion engine when temperature of the coolant is less than an engine fluidic circuit upper temperature threshold when the engine is in an ON state; circulating coolant to the heater core via a second fluidic circuit that excludes the water jacket of the internal combustion engine when temperature of the coolant is greater than a second circuit lower temperature threshold when the engine is in an OFF state; executing an engine autostart routine to operate the engine in the ON state when the temperature of the coolant is less than an engine fluidic circuit lower temperature threshold; and circulating coolant to the heater core via the engine fluidic circuit including the water jacket only when temperature of the coolant is greater than a second circuit upper temperature threshold subsequent to executing the engine autostart routine to operate the internal combustion engine in the ON state. 2. The method of claim 1 , wherein the second fluidic circuit includes a supplemental coolant heater, and further comprising employing the supplemental coolant heater to heat the cooling fluid while circulating coolant to the heater core via the second fluidic circuit. 3. The method of claim 2 , further comprising circulating coolant to the heater core via the engine fluidic circuit including the water jacket of the internal combustion engine only when a temperature of the coolant is greater than a second fluidic circuit upper temperature threshold subsequent to executing the engine autostart routine to operate the engine in the ON state. 4. The method of claim 3 , wherein the engine fluidic circuit upper temperature threshold is greater than the second fluidic circuit upper temperature threshold. 5. The method of claim 1 , wherein circulating coolant to the heater core via the engine fluidic circuit including the water jacket when temperature of the coolant is less than an engine fluidic circuit upper temperature threshold and the engine is in the ON state further comprises circulating coolant to the heater core via the engine fluidic circuit when temperature of the coolant is less than the engine fluidic circuit upper temperature threshold and the engine is in an ON state during a first cycle of the engine ON state after vehicle key-on. 6. The method of claim 1 , further comprising commanding the engine OFF state when the coolant temperature exceeds the engine fluidic circuit upper temperature threshold. 7. The method of claim 1 , wherein the heater core extracts heat from the coolant for transferring to a passenger compartment of a vehicle.