Vehicle braking system and method of operating the same

What is claimed is: 1. A vehicle braking system comprising: a wheel cylinder; a master cylinder including a master cylinder piston operable to translate between an unactuated position and an actuated position in a first mode of operation; a brake pedal positioned relative to a firewall and operable to transition between an extended position corresponding to the unactuated position of the master cylinder and a retracted position corresponding to the actuated position of the master cylinder; and a booster located between the master cylinder and the brake pedal, wherein the master cylinder is operable to selectively transfer a braking force from the brake pedal to the wheel cylinder in the first mode of operation, and wherein the booster is operable to hold the brake pedal against or adjacent the firewall in the retracted position in a second mode of operation without user input and without associated braking, and wherein the vehicle braking system further includes a valve positioned between the master cylinder and the wheel cylinder, wherein the valve is in a closed position in the second mode of operation. 2. The vehicle braking system of claim 1 , wherein the booster is operable to boost the braking force generated by the master cylinder in the first mode of operation. 3. The vehicle braking system of claim 1 , further comprising an electronically controlled pressure generation unit separate from the master cylinder and operable to generate a braking force at the wheel cylinder in the second mode of operation. 4. The vehicle braking system of claim 1 , further comprising a valve positioned between the master cylinder and the wheel cylinder, wherein the valve is in a closed position in the second mode of operation. 5. The vehicle braking system of claim 1 , wherein the second mode of operation is an autonomous driving mode, wherein in the autonomous driving mode the vehicle braking system is operable to generate a braking force without user input and the brake pedal is inoperable to provide the braking force to the wheel cylinder. 6. The vehicle braking system of claim 5 , further comprising a controller programmed to transition the vehicle braking system from the first mode to the autonomous driving mode in response to a user input. 7. The vehicle braking system of claim 6 , further comprising one or more sensors operable to detect a braking trigger, wherein the controller is programmed to transition the vehicle braking system from the second mode to the first mode in response to an input from the one or more sensors. 8. The vehicle braking system of claim 6 , wherein the controller is programmed to transition the vehicle braking system from the second mode to the first mode in response to an input from the user or upon detecting that a desired braking pressure is not achieved. 9. A method of operating a vehicle braking system, the method comprising: providing a brake pedal coupled to a master cylinder, the brake pedal positioned in an extended position present for use and retractable along a path toward a retracted position when applying braking; moving the brake pedal along the path toward the retracted position, without applying braking, to define a stowed condition of the brake pedal against or adjacent to a firewall; holding the brake pedal in the stowed condition without associated braking; automatically identifying a braking trigger with a controller, and generating a signal from the controller in response to the identification of the braking trigger; and generating a pressure at a wheel cylinder based on the signal, the magnitude of the pressure being irrespective of the position of the brake pedal and generated without use of the brake pedal. 10. The method of claim 9 , further comprising disconnecting a brake fluid flow path between the master cylinder and the wheel cylinder. 11. The method of claim 9 , further comprising energizing an electromechanical booster to move the brake pedal from the extended position to the stowed position. 12. The method of claim 11 , further comprising inputting a command to the controller to retract the brake pedal prior to energizing the electromechanical booster, wherein inputting the command to the controller includes placing the vehicle into an autonomous driving mode. 13. The method of claim 9 , further comprising inputting a command to the controller to release the brake pedal to the extended position wherein inputting the command to the controller includes exiting an autonomous driving mode. 14. A vehicle braking system comprising: a wheel cylinder; a brake pedal positioned relative to a firewall and operable to transition along a path between an extended position in which the brake pedal is presented for use and a retracted position in which the brake pedal is stowed against or adjacent to the firewall; and a pedal hold down device operable to retain the brake pedal in the retracted position, wherein, in a first mode of operation, the brake pedal is actuatable along the path from the extended position toward the retracted position and the vehicle braking system is operable to provide a variable braking force associated with the position of the brake pedal, and wherein, in a second mode of operation, the pedal hold down device retains the brake pedal in the retracted position without an associated braking force and the vehicle braking system is operable to provide a variable braking force irrespective of the position of the brake pedal. 15. The vehicle braking system of claim 14 , wherein the second mode of operation is an autonomous driving mode, wherein in the autonomous driving mode the vehicle braking system is operable to generate the variable braking force without user input. 16. The vehicle braking system of claim 14 , further comprising a master cylinder and a valve positioned between the master cylinder and the wheel cylinder, wherein, in the second mode of operation, the valve disconnects a brake fluid flow path between the master cylinder and the wheel cylinder. 17. The vehicle braking system of claim 16 , wherein the pedal hold down device is an electromechanical booster operable to boost the associated braking force in the first mode of operation and further operable to retract the brake pedal to the retracted position to transition the system into the second mode of operation. 18. The vehicle braking system of claim 17 , further comprising an electrically controlled pressure generation unit separate from the master cylinder and the electromechanical booster and operable to generate a braking force at the wheel cylinder in the second mode of operation. 19. The vehicle braking system of claim 14 , further comprising a master cylinder and an electrically controlled pressure generation unit separate from the master cylinder, wherein the electrically controlled pressure generation unit is operable to generate a braking force at the wheel cylinder in response to actuation of the brake pedal in the first mode of operation. 20. The vehicle braking system of claim 19 , further comprising one or more sensors operable to detect a braking trigger, wherein the electronically controlled pressure generation unit is further operable to generate a braking force at the wheel cylinder in response to an input from the one or more sensors in the second mode of operation. 21. A vehicle braking system comprising: a wheel cylinder; a master cylinder including a master cylinder piston operable to translate between an unactuated position and an actuat