Distributed propulsion system power unit control

What is claimed is: 1. A propulsion system comprising: a plurality of power units; a plurality of propulsors, wherein respective power units of the plurality of power units are controllably coupled to the plurality of propulsors; and a controller configured to: receive a desired throttle value corresponding to a desired propulsive force; determine a number of power units of the plurality of power units to be coupled to the plurality of propulsors to achieve the desired propulsive force based on a respective power value associated with each respective power unit of the plurality of power units; determine a region of net thrust including the desired propulsive force, wherein the region comprises a decision region indicating that at least one additional power unit of the plurality of power units is necessary to achieve the desired propulsive force and a warning region indicating that the desired propulsive force is approaching the decision region; and cause the number of power units of the plurality of power units to be coupled to the plurality of propulsors responsive to the net thrust entering the decision region. 2. The propulsion system of claim 1 , wherein: the plurality of power units is selectively mechanically coupled to the plurality of propulsors, the propulsion system further comprises a gearbox and drive-shafts, each respective power unit of the plurality of power units comprises a respective power-shaft configured to transfer rotational mechanical energy from the respective power unit to the gearbox, the gearbox is mechanically coupled to the drive-shafts, and each respective drive-shaft of the drive-shafts is mechanically coupled to a respective propulsor of the plurality of propulsors. 3. The propulsion system of claim 1 , wherein: the propulsion system further comprises a plurality of electric generators selectively coupled to the plurality of power units and a plurality of electric motors coupled to the plurality of propulsors, and each respective motor of the plurality of motors is configured to convert electrical energy to mechanical energy to drive a respective propulsor of the plurality of propulsors to which the respective motor of the plurality of motors is coupled. 4. The propulsion system of claim 1 , wherein the controller is further configured to: determine a maximum available propulsive force based on a number of currently operating power units of the plurality of power units and a maximum designed power of each respective currently operating power unit of the plurality of power units; determine that the maximum available propulsive force is less than the desired propulsive force; determine when net thrust enters the warning region; cause a warning to be displayed via a flight system responsive to net thrust entering the warning region; determine when net thrust enters the decision region; and cause at least one additional power unit of the plurality of power units to be coupled to the plurality of propulsors responsive to the net thrust entering the decision region. 5. The propulsion system of claim 1 , wherein the region of net thrust comprises an optional decision region indicating that at least one fewer power unit of the plurality of power units is necessary to achieve the desired propulsive force, and wherein the controller is further configured to: determine a maximum available propulsive force based on a number of currently operating power units of the plurality of power units less at least one currently operating power units of the plurality of power units and a maximum designed power of each respective currently operating power unit of the plurality of power units; determine that the desired propulsive force is less than the maximum available propulsive force; determine when net thrust enters the optional decision region; cause a warning to be displayed via a flight system responsive to net thrust entering the optional decision region; and cause at least one power unit of the plurality of power units to be decoupled from the plurality of propulsors responsive to net thrust entering the optional decision region. 6. The propulsion system of claim 1 , wherein a maximum designed power of each respective currently operating power unit of the plurality of power units is based on at least one of an operating condition based on at least one of a temperature of each respective currently operating power unit, an ambient pressure, and an ambient humidity, a power unit health of each respective currently operating power unit of the plurality of power units based on at least one of total lifetime engine run-time, total startup/shutdown cycles, and maintenance records, or a power margin based on a fixed minimum power margin value and a rate of change of the desired throttle value. 7. The propulsion system of claim 1 , wherein at least one propulsor of the plurality of propulsors is configured to ingest fluid at a fluid boundary layer formed at an outer surface of a vehicle to which the plurality of propulsors are attached. 8. The propulsion system of claim 1 , wherein at least one power unit of the plurality of power units is configured for continuous operation and at least one power unit of the plurality of power units is configured for selective operation. 9. A method comprising: receiving a desired throttle value of a plurality of power units of a propulsion system corresponding to a desired propulsive force of a plurality of propulsors of the propulsion system; determining a number of power units of the plurality of power units to be coupled to the plurality of propulsors to achieve the desired propulsive force based on a respective power value associated with each respective power unit of the plurality of power units; determining a region of net thrust including the desired propulsive force, wherein the region comprises a decision region indicating that at least one additional power unit of the plurality of power units is necessary to achieve the desired propulsive force and a warning region indicating that the desired propulsive force is approaching the decision region; and causing the number of power units of the plurality of power units to be coupled to the plurality of propulsors responsive to the net thrust entering the decision region. 10. The method of claim 9 , wherein: the plurality of power units is selectively mechanically coupled to the plurality of propulsors, the propulsion system further comprises a gearbox and drive-shaft, each power unit of the plurality of power units comprises a power-shaft configured to transfer rotational mechanical energy to the gearbox, the gearbox is mechanically coupled to the drive-shaft, and the drive-shaft is mechanically coupled to the plurality of propulsors. 11. The method of claim 9 , wherein: the propulsion system further comprises a plurality of electric generators selectively coupled to the plurality of power units and a plurality of electric motors coupled to the plurality of propulsors, and each respective motor of the plurality of motors is configured to convert electrical energy to mechanical energy to drive a respective propulsor to which the respective motor is coupled. 12. The method of claim 9 , further comprising: determining a maximum available propulsive force based on a number of currently operating power units of the plurality of power units and a maximum designed power of each respective currently operating power unit of the plurality of power units; determining that the maximum available propulsive force is less than the desired propulsive force; determining when net thrust enters the warning region; causing a warning to be display