Compact aero-thermo model based engine power control

What is claimed is: 1. A control system, comprising: an actuator operable to adjust a control device; and a computer processor configured to execute a control law to control the actuator as a function of a model output of a model and generate the model output using a model processor, wherein the model processor comprises a plurality of executable instructions to: process a model input vector and set a model operating mode; set dynamic states of the model processor, the dynamic states input to an open loop model based on the model operating mode; generate a plurality of synthesized parameters as a function of the dynamic states and the model input vector based on a series of utilities, wherein at least one of the utilities is a configurable utility comprising one or more sub-utilities; determine an estimated state of the model based on at least one of a prior state and the synthesized parameters; and process at least the synthesized parameters of the model to determine the model output comprising an estimated thrust value for the control device. 2. The control system of claim 1 , wherein the control law compares the estimated thrust value with a goal value to determine a thrust control request, the thrust control request received by the actuator to control the thrust of the control device. 3. The control system of claim 1 , wherein the control law applies control error to the estimated thrust signal to account for error in the control device. 4. The control system of claim 3 , wherein the error in the control device is based on at least one of control law error, wear in the control device, customer power extraction, customer bleed extraction, humidity levels, and fuel quality. 5. The control system of claim 1 , wherein the estimated thrust value of the control device is based on, at least, a spool speed of a spool of the control device. 6. The control system of claim 1 , wherein the model input vector includes one or more of raw effector data, boundary conditions, engine sensing data, unit conversion information, range limiting information, rate limiting information, dynamic compensation determinations, and synthesized lacking inputs. 7. The control system of claim 1 , wherein the control device is a gas turbine engine. 8. The control system of claim 7 , wherein the utilities are based on physical laws that govern behavior of a component of the gas turbine engine. 9. The control system of claim 7 , wherein the utilities model a plurality of physical processes associated with components of a thermodynamic cycle of the gas turbine engine. 10. A method for controlling a control device, the method comprising: generating, by a computer processor, a model output of a model using a model processor; processing a model input vector and setting a model operating mode; setting dynamic states of the model processor, the dynamic states input to an open loop model based on the model operating mode; generating a plurality of synthesized parameters as a function of the dynamic states and the model input vector based on a series of utilities, wherein at least one of the utilities is a configurable utility comprising one or more sub-utilities; determining an estimated state of the model based on at least one of a prior state and the synthesized parameters; processing at least the synthesized parameters of the model to determine the model output; directing an actuator associated with the control device as a function of a model output, the model output comprising an estimated thrust value for the control device, using a control law; and adjusting the control device using the actuator. 11. The method of claim 10 , wherein the control law compares the estimated thrust value with a goal value to determine a thrust control request, the thrust control request received by the actuator to control the thrust of the control device. 12. The method of claim 10 , wherein the control law applies control error to the estimated thrust signal to account for error in the control device. 13. The method of claim 12 , wherein the error in the control device is based on at least one of control law error, wear in the control device, customer power extraction, customer bleed extraction, humidity levels, or fuel quality. 14. The method of claim 10 , wherein the estimated thrust value of the control device is based on, at least, a spool speed of a spool of the control device. 15. The method of claim 10 , wherein the control device is a gas turbine engine, and the utilities model a plurality of physical processes associated with components of a thermodynamic cycle of the gas turbine engine. 16. A gas turbine engine comprising: a fan; a compressor section downstream of the fan; a combustor section downstream of the compressor section; a turbine section downstream of the combustor section; an actuator operable to adjust the gas turbine engine; and a computer processor configured to execute a control law to control the actuator as a function of a model output of a model using a model processor, wherein the model processor comprises a plurality of executable instructions to: process a model input vector and set a model operating mode; set dynamic states of the model processor, the dynamic states input to an open loop model based on the model operating mode; generate a plurality of synthesized parameters as a function of the dynamic states and the model input vector based on a series of utilities, wherein at least one of the utilities is a configurable utility comprising one or more sub-utilities; determine an estimated state of the model based on at least one of a prior state and the synthesized parameters; and process at least the synthesized parameters of the model to determine the model output. 17. The gas turbine engine of claim 16 , wherein the control law compares an estimated thrust value with a goal value to determine a thrust control request, the thrust control request received by the actuator to control the thrust of the gas turbine engine. 18. The gas turbine engine of claim 16 , wherein the control law applies control error to an estimated thrust signal to account for error in the gas turbine engine. 19. The gas turbine engine of claim 16 , further comprising a spool, wherein an estimated thrust value of the gas turbine engine is based on, at least, a spool speed of the spool. 20. The gas turbine engine of claim 16 , wherein the component comprises an element of at least one of: a duct, a bleed, a pressure loss at a location, a turbine, a compressor, a diffusor, a burner, an exit guide vane, a nozzle, a fan, an efficiency loss module, a fan gear box, or a torque measurement.