Method and system for compressor outlet temperature regulation

The invention claimed is: 1. An engine method, comprising: estimating a compressor speed profile for a future horizon of vehicle operation based on current and predicted engine operating conditions, the compressor speed profile including a predicted compressor speed at each point of different time points of the future horizon; and adjusting an engine torque output responsive to each of a degree and a duration over which the predicted compressor speed, at a point of the different time points of the compressor speed profile, exceeds a threshold speed. 2. The engine method of claim 1 , wherein the adjusting includes limiting the engine torque output below a driver demand based torque as the degree at which a peak predicted compressor speed at the point of the different points of the compressor speed profile exceeds the threshold speed increases and as the duration over which the predicted compressor speed at the point of the different points of the compressor speed profile exceeds the threshold speed increases. 3. The engine method of claim 2 , wherein the estimating includes estimating an engine torque profile for the future horizon based on the current and predicted engine operating conditions, and estimating the compressor speed profile based on a filtered value of an estimated engine torque profile. 4. The engine method of claim 2 , wherein a compressor is coupled to a turbine, and wherein limiting the engine torque output includes increasing an opening of a wastegate coupled to the turbine to lower compressor speed and decrease boost pressure. 5. The engine method of claim 2 , wherein limiting the engine torque output includes reducing an opening of an intake throttle to reduce an intake air flow to the engine. 6. The engine method of claim 2 , wherein limiting the engine torque output further includes one or more of increasing an opening of an EGR valve, and retarding spark timing. 7. The engine method of claim 1 , wherein the current and predicted engine operating conditions are based on inputs from external vehicle communications, the external vehicle communications including one or more of a navigation system and a wireless communication unit communicatively coupled to an engine, wherein the inputs include one or more of vehicle data, navigation data, location data, map data, terrain data, and weather data, and wherein the current and predicted engine operating conditions include each of a vehicle weight, an engine size, a vehicle speed, an engine torque, an engine load, barometric pressure, exhaust pressure, manifold pressure (MAP), inlet air temperature, a compressor pressure ratio, compressor efficiency, throttle inlet pressure, and an intake mass airflow rate. 8. The engine method of claim 7 , wherein the engine is a boosted engine including an intake compressor, and wherein the adjusting the engine torque output includes adjusting the engine torque output to maintain each of a compressor speed below the threshold speed, and the throttle inlet pressure below a threshold pressure.