Thermal transmission management strategy

What is claimed is: 1. A vehicle thermal management system, comprising: a radiator receiving a coolant in a coolant supply line and discharging the coolant into a coolant pump supply line; a coolant pump receiving the coolant from the coolant pump supply line and discharging the coolant into multiple engine components; a transmission coolant-to-oil oil heat exchanger defining a first transmission oil heat exchanger receiving the coolant after being discharged from the multiple engine components; an air-to-coolant sub-cooling heat exchanger defining a second transmission oil heat exchanger, the sub-cooling heat exchanger receiving a portion of the coolant bypassing the multiple engine components; and a coolant control valve to control sub-cooling coolant flow to the sub-cooling heat exchanger, wherein the coolant control valve includes: an engine rotary valve; an oil rotary valve distributing at least one of the coolant received in the coolant control valve and from the sub-cooling heat exchanger; and a radiator rotary valve distributing the coolant received in the coolant control valve back to the radiator or to an oil rotary valve. 2. The vehicle thermal management system of claim 1 , further including a first bypass line connected to the coolant control valve providing a path to bypass the coolant discharged from the coolant pump after receipt from the radiator around the engine components and into the sub-cooling heat exchanger. 3. The vehicle thermal management system of claim 1 , wherein if a temperature of a transmission oil is determined to be above an optimal temperature range, a transmission cooling operation is initiated and a transmission cooling command is generated. 4. The vehicle thermal management system of claim 3 , wherein upon receipt of the transmission cooling command a maximum cooling request is determined, the maximum cooling request identifying if the temperature of the transmission oil is either below or above a predetermined cooling threshold. 5. The vehicle thermal management system of claim 4 , wherein if the temperature of the transmission oil is below the cooling threshold a cooling command is generated and a set-up cooling mode is initiated which performs two functions: a first function sets the engine rotary valve to a full open position and the radiator rotary valve to flow the coolant to the radiator, and a second function sets the oil rotary valve to a cooling mode. 6. The vehicle thermal management system of claim 4 , wherein if the transmission oil temperature is above the cooling threshold, a maximum cooling command is generated and a thermal energy-to-transfer calculation is performed. 7. The vehicle thermal management system of claim 6 , wherein the thermal energy-to-transfer calculation includes: determining a coolant flow rate for the sub-cooling heat exchanger; determining a setting of the oil rotary valve as a function of a transmission oil flow rate and an engine coolant flow rate; setting the oil rotary valve to a transmission cooling operation; and selecting operation of a radiator fan ON if a transmission heat load is less than a heat load of the sub-cooling heat exchanger, else the radiator fan is OFF. 8. The vehicle thermal management system of claim 1 , wherein the sub-cooling heat exchanger further cools the coolant discharged from the radiator to provide the coolant at lower temperatures than engine setpoints for cooling a transmission oil. 9. A vehicle thermal management system, comprising: a radiator receiving a liquid coolant from a coolant supply line and discharging the coolant into a coolant pump supply line; a coolant pump receiving the coolant from the coolant pump supply line and discharging a first portion of the coolant into multiple engine components; a coolant control valve receiving the first portion of the coolant discharged from the multiple engine components; a transmission oil heat exchanger defining a first transmission oil heat exchanger in communication with the coolant control valve and receiving the first portion of the coolant after being discharged from the multiple engine components; and an air-to-coolant sub-cooling heat exchanger defining a second transmission oil heat exchanger, the sub-cooling heat exchanger receiving a second portion of the coolant bypassing the multiple engine components, the sub-cooling heat exchanger further cooling the second portion of the coolant to provide the second portion of the coolant at a lower temperature than engine setpoints for cooling a transmission oil, the sub-cooling heat exchanger discharging the second portion of the coolant into the coolant control valve for selective distribution into the transmission oil heat exchanger; and wherein the coolant control valve controls a sub-cooling coolant flow to the sub-cooling heat exchanger and includes: an engine rotary valve receiving coolant discharged from the multiple engine components; a radiator rotary valve distributing at least one of the coolant received from the engine rotary valve and the multiple engine components back to the radiator; and an oil rotary valve distributing the coolant received from the radiator rotary valve and from the sub-cooling heat exchanger. 10. The vehicle thermal management system of claim 9 , wherein the radiator rotary valve is further connected to at least one heater core, and the oil rotary valve is connected to an engine oil heat exchanger. 11. The vehicle thermal management system of claim 9 , further including a radiator fan operated to positively draw air through the radiator, wherein conditions for operation of the radiator fan are based on optimized heat transmission, for the sub-cooling heat exchanger including: 1) a Transmission Cooling Physics defining a transmission oil target temperature and a transmission cooling mode; 2) an Operation Degraded Physics defining a transmission oil target temperature and a sub-cooled fan logic objective; and 3) a Reliability Degraded Physics defining a transmission oil temperature, a sub-cooled target coolant temperature, a pump logic and a transmission coolant flow. 12. The vehicle thermal management system of claim 11 , wherein the Transmission Cooling Physics include: the transmission oil target temperature is set at a first predetermined temperature for rear-wheel drive vehicles and a second predetermined temperature different from the first predetermined temperature for front-wheel drive vehicles; and the transmission cooling mode being active when the transmission oil target temperature is exceeded and a transmission warming operation is complete. 13. The vehicle thermal management system of claim 11 , wherein the Operation Degraded Physics include: the transmission oil target temperature reaching a first predetermined temperature for rear-wheel drive vehicles and a second predetermined temperature different from the first predetermined temperature for front-wheel drive vehicles; the sub-cooled fan logic objective providing a sub-cooled coolant target temperature correlated to a transmission oil temperature above the transmission oil target temperature, the sub-cooled target temperature calculated as follows: sub-cooled coolant target temp =transmission oil target temperature −[transmission oil temperature −transmission oil target temperature]; and IF: a sub-cooled coolant temperature >sub-cooled coolant target temperature THEN FAN Request is ACTIVE, ELSE FAN Request is OFF; ELSE: If engine-in coolant temperature >[engine in target coolant temperature +Hysteresis]THEN FAN Request is ACTIVE, ELSE FAN Request is OFF. 14. The vehicle thermal management system of