Multifunction foot pedal

The invention claimed is: 1. A system for performing ocular surgery, comprising: a handpiece for performing surgical procedures; an instrument host coupled to the handpiece that includes: a data storage device configured for storing computer instructions; a processor communicatively coupled to the data storage device; a communications connection to the handpiece that provides operating instructions to the handpiece based on received control signals; and an electrical power connection to the handpiece that provides electrical power to the handpiece in accordance with the operating instructions; and a foot pedal communicatively coupled to the instrument host that provides the control signals, including: a base; and a treadle pivotably coupled to the base on at least one rotational axis; wherein the range of motion of the treadle as it pivots around the axis comprises a plurality of non-overlapping zones, each zone corresponding to a virtual switch that is activated when the treadle is oriented within that zone, by sending a respective one of the control signals to the instrument host, wherein prior to the virtual switch activation, the foot pedal is put into a virtual switch mode of operation by: tapping the treadle; wherein a tap for the tapping is defined by a predetermined extent of motion of the treadle, and one of a predetermined speed of the treadle and a predetermined amount of time the treadle is in a predetermined zone. 2. The system of claim 1 , further comprising a feedback signal generator that generates a feedback signal when: a foot pedal operation activates or deactivates a virtual switch mode; or a foot pedal operation activates or deactivates a select virtual switch. 3. The system of claim 2 , wherein the generated feedback signal is at least one selected from the group consisting of an audible signal, a haptic signal, and a visual signal. 4. The system of claim 2 , wherein at least one of the generated signals corresponds to a particular predefined foot pedal operation. 5. The system of claim 1 , wherein the treadle is able to pivot in one axis. 6. The system of claim 5 , wherein the axis is horizontal, and the treadle angle of pitch is varied as it pivots about the axis. 7. The system of claim 5 , wherein the axis is vertical, and the treadle angle of yaw is varied as it pivots about the axis. 8. The system of claim 1 , wherein the treadle is able to pivot in at least a horizontal axis and a vertical axis, wherein: the treadle angle of pitch is varied as it pivots about the horizontal axis; the treadle angle of yaw is varied as it pivots about the vertical axis; and the treadle range of motion in both the pitch and yaw directions comprise a respective plurality of non-overlapping zones. 9. The system of claim 1 , wherein the base comprises at least one electromechanical switch that is activated when pressed to send one of the control signals to the instrument host. 10. The system of claim 1 , further comprising a graphical user interface (GUI) host communicatively coupled to the instrument host, the GUI host comprising a display device that presents information of at least one of the foot pedal and the handpiece. 11. A foot pedal for use in a system for performing ocular surgery, comprising: a base; a communications port included in the base for communicatively coupling the foot pedal to an instrument host, that provides control signals to the instrument host; and a treadle pivotably coupled to the base on at least one rotational axis; wherein the range of motion of the treadle as it pivots about the axis comprises a plurality of non-overlapping zones, each zone corresponding to a virtual switch that is activated when the treadle is oriented within that zone by sending a respective one of the control signals to the instrument host, wherein prior to the virtual switch activation, the foot pedal is put into a virtual switch mode of operation by: tapping the treadle; wherein a tap for the tapping is defined by a predetermined extent of motion of the treadle, and one of a predetermined speed of the treadle and a predetermined amount of time treadle is in a predetermined zone. 12. The foot pedal of claim 11 , wherein the treadle is able to pivot about one axis. 13. The foot pedal of claim 12 , wherein the axis is horizontal, and the treadle angle of pitch is varied as it pivots about the axis. 14. The foot pedal of claim 12 , wherein the axis is vertical, and the treadle angle of yaw is varied as it pivots about the axis. 15. The foot pedal of claim 10 , wherein the treadle is able to pivot about at least a horizontal axis and a vertical axis, wherein: the treadle angle of pitch is varied as it pivots about the horizontal axis; the treadle angle of yaw is varied as it pivots about the vertical axis; and the treadle range of motion in both the pitch and yaw directions comprise a respective plurality of non-overlapping zones. 16. The foot pedal of claim 15 , wherein the pitch direction is divided into four zones, and the yaw direction is divided into three zones. 17. The foot pedal of claim 15 , wherein the plurality of zones are user configurable. 18. The foot pedal of claim 15 , wherein information of the treadle angle of pitch, yaw, or both, defines a foot pedal state or a point of transition from one state to another. 19. The foot pedal of claim 15 , wherein the treadle angle of pitch includes at least one of a top or bottom of the pedal's pitch range of motion, or a left or right limit of the pedal's yaw range of motion. 20. The foot pedal of claim 15 , wherein the information of the treadle comprises a predetermined speed and extent of motion that defines a tap or stomp of the foot pedal. 21. The foot pedal of claim 15 , wherein the information of the treadle comprises a duration of maintaining a treadle position. 22. The foot pedal of claim 21 , wherein the information of the treadle comprises pressing the treadle into a predetermined position or zone for a predetermined amount of time and releasing it. 23. The foot pedal of claim 11 , wherein the plurality of non-overlapping zones are defined from a horizontal pitch reference position or a midpoint of the yaw range of motion, each zone existing between two different angles of pitch or yaw. 24. The foot pedal of claim 23 , wherein each zone is defined to be active or passive. 25. The foot pedal of claim 11 , wherein the base comprises at least one electromechanical switch that is activated when pressed to send one of the control signals to the instrument host. 26. The foot pedal of claim 25 , wherein one of the electromechanical switches toggles on or off a mode of foot pedal operation in which the virtual switches are operable. 27. A method of operating a system for performing ocular surgery, comprising: modifying an angle of a treadle of a foot pedal operatively coupled to a handpiece to activate a predefined virtual switch function corresponding to a treadle position within a zone of treadle movement, the zone defined by a portion of a full range of motion of the treadle as it pivots about an axis of rotation; and upon activation of the virtual switch, generating a feedback signal confirming the virtual switch has been activated; providing a control signal to the handpiece based on an operation of the activated virtual switch; and using the handpiece to perform a sur