Cooktop having electrically controlled gas flow

What is claimed is: 1. A gas cooktop comprising: a gas burner; a throttle valve controlling a gas flow to the gas burner from a supply of combustible gas, wherein the throttle valve comprises a proportional solenoid valve having a continuously variable position; a linear voltage regulator having a continuously variable output voltage configured to be controllable by a user interface (UI) element; and an electronic controller having processing logic, wherein the output voltage of the linear voltage regulator is coupled to a solenoid of the throttle valve and configured to control the continuously variable position of the throttle valve, such that the gas flow to the gas burner has a linear relationship with the output voltage of the linear voltage regulator, and the UI element is configured to provide a continuously variable input to the controller, and the processing logic is configured to provide a continuously variable output signal to the linear voltage regulator, such that the output voltage of the linear voltage regulator is controlled by the output signal of the controller. 2. The gas cooktop of claim 1 , wherein the UI element comprises a rotatable mechanical knob. 3. The gas cooktop of claim 1 , wherein the UI element comprises a capacitive touch control. 4. The gas cooktop of claim 1 , wherein the UI element comprises a mobile digital device in wireless communication with the electronic controller. 5. The gas cooktop of claim 1 , wherein the supply of combustible gas comprises a propane tank. 6. A gas cooktop comprising: a gas burner; a proportional solenoid valve controlling a gas flow to the gas burner from a supply of combustible gas, wherein the proportional solenoid valve has a continuously variable range of positions; a user interface (UI) element associated with the proportional solenoid valve; a linear voltage regulator having a continuously variable output voltage configured to be controllable by the UI element; and an electronic controller having processing logic, wherein the output voltage of the linear voltage regulator is coupled to a solenoid of the proportional solenoid valve, such that the gas flow to the gas burner has a linear relationship with the output voltage of the linear voltage regulator, and the UI element is configured to provide a continuously variable input to the controller, and the processing logic is configured to provide a continuously variable output signal to the linear voltage regulator, such that the output voltage of the linear voltage regulator is controlled by the output signal of the controller. 7. The gas cooktop of claim 6 , wherein the UI element comprises a rotatable mechanical knob. 8. The gas cooktop of claim 6 , wherein the UI element comprises a capacitive touch control. 9. The gas cooktop of claim 6 , wherein the UI element comprises a mobile digital device in wireless communication with the electronic controller. 10. The gas cooktop of claim 6 , wherein the linear voltage regulator comprises a power MOSFET. 11. A method for controlling a burner of a gas cooktop, the method comprising: controlling an output voltage of a linear voltage regulator using a continuously variable output from a user interface (UI) element; controlling a gas flow to a gas burner from a supply of combustible gas by using the output of the linear voltage regulator to continuously vary a throttling position of a proportional solenoid valve within a range of positions; receiving the continuously variable output from the user interface (UI) element at an electronic controller; and using processing logic of the electronic controller to provide a continuously variable output signal to the linear voltage regulator, such that the output voltage of the linear voltage regulator is controlled by the output signal of the controller, wherein the gas flow to the gas burner has a linear relationship with the output voltage of the linear voltage regulator. 12. The method of claim 11 , wherein the UI element comprises a rotatable mechanical knob. 13. The method of claim 11 , wherein the UI element comprises a capacitive touch control. 14. The method of claim 11 , wherein the UI element comprises a mobile digital device in wireless communication with the electronic controller. 15. The method of claim 11 , wherein the UI element comprises a graphical user interface on a display. 16. The method of claim 11 , wherein the UI element comprises a voice interface capable of speech recognition. 17. The gas cooktop of claim 6 , wherein the UI element comprises a graphical user interface on a display. 18. The gas cooktop of claim 6 , wherein the UI element comprises a voice interface capable of speech recognition. 19. The gas cooktop of claim 1 , wherein the UI element comprises a graphical user interface on a display. 20. The gas cooktop of claim 1 , wherein the UI element comprises a voice interface capable of speech recognition.