Smart sensor ports and methods of using same

What is claimed is: 1. An analyte meter, comprising: a housing comprising a display; a sensor port coupled to the housing, wherein the sensor port receives a sensor to determine a concentration of an analyte in a fluid sample, and wherein the sensor port comprises a first electrode contact and a second electrode contact; and a controller unit coupled to the housing, the controller unit processes a signal received from the sensor and determines the concentration of the analyte based on the signal; wherein the analyte meter detects first and second different insertion orientations of the sensor upon first or second insertion of the sensor into the sensor port, and based on the insertion orientation, the analyte meter configures one of the first electrode contact or the second electrode contact as a reference and/or counter electrode contact. 2. The analyte meter of claim 1 , wherein the second electrode contact is a working electrode contact. 3. The analyte meter of claim 1 , wherein the sensor received by the sensor port comprises opposing working and reference and/or counter electrodes. 4. The analyte meter of claim 1 , wherein the sensor received by the sensor port comprises coplanar working and reference and/or counter electrodes. 5. The analyte meter of claim 1 , wherein the analyte is glucose or ketone bodies. 6. The analyte meter of claim 1 , wherein the analyte meter is activated upon insertion of the sensor into the sensor port. 7. The analyte meter of claim 6 , wherein the sensor comprises a turn-on/selection monitor, the sensor port comprises a turn-on/selection contact, and the turn-on/selection monitor contacts the turn-on/selection contact upon insertion of the sensor into the sensor port, thereby activating the analyte meter. 8. The analyte meter of claim 7 , wherein contact of the turn-on/selection contact with the turn-on/selection monitor opens or closes an electrical circuit, wherein opening or closing of the electrical circuit indicates the insertion orientation of the sensor. 9. The analyte meter of claim 1 , wherein the analyte meter detects the insertion orientation of the sensor by electrical means. 10. The analyte meter of claim 9 , wherein the analyte meter detects the insertion orientation of the sensor by detecting the opening or closing of an electrical circuit upon insertion of the sensor into the sensor port. 11. The analyte meter of claim 1 , wherein the controller unit is configured to perform an algorithm to determine a medication dose based on a determined concentration of analyte. 12. The analyte meter of claim 1 , wherein the controller unit is configured to determine the concentration of the analyte by amperometry, coulometry, potentiometry, and/or voltametry using the signal received from the sensor. 13. The analyte meter of claim 1 , wherein the display is a touch sensitive display. 14. The analyte meter of claim 1 , wherein the display is configured to provide one or more of an alphanumeric display, a graphical display, a video display, or combinations thereof. 15. The analyte meter of claim 1 , wherein the analyte meter comprises a receiver and/or transmitter for communicating with a continuous glucose monitor. 16. The analyte meter of claim 1 , wherein the analyte meter comprises a receiver and/or transmitter for communicating with a medication delivery device. 17. The analyte meter of claim 1 , wherein the analyte meter comprises a communication unit coupled to the housing. 18. The analyte meter of claim 17 , wherein the communication unit is a wireless communication unit. 19. The analyte meter of claim 18 , wherein the wireless communication unit comprises radio frequency (RF) communication or cellular communication. 20. The analyte meter of claim 17 , wherein the communication unit comprises a universal serial bus (USB) port.