On-die input reference voltage with self-calibrating duty cycle correction

What is claimed is: 1. A calibration buffer circuit coupled to a first input buffer and a first reference voltage select circuit of a data buffer circuit, the first reference voltage select circuit coupled to a first voltage divider circuit, the calibration buffer circuit monitoring a number of transitions of an output of a second buffer circuit contemporaneously with transmission of the output of the first input buffer of the data buffer circuit, the calibration buffer circuit comprising: the second input buffer coupled to a data input and a test reference voltage, with the test reference voltage derived separate from a reference voltage; an eye monitor circuit coupled to the second input buffer, the eye monitor circuit generating an output signal representative of a timing of the transitions of the output of the second input buffer with respect to a clock signal; a calibration control circuit coupled in series with the eye monitor circuit, the calibration control circuit receiving the output signal from the eye monitor circuit, and the calibration control circuit analyzing the output signal from the eye monitor circuit and providing a selection signal to the first reference voltage select circuit of the data buffer circuit, wherein the selection signal corresponds to the level of the reference voltage that produces a maximum horizontal width of an eye of the output of the first input buffer of the data buffer circuit based on a calibration of the test reference voltage; a second reference voltage select circuit coupled to the calibration control circuit, the second reference voltage select circuit transmitting the test reference voltage to the second input buffer; and a second voltage divider circuit coupled to the second reference select circuit, the second voltage divider circuit having a series of resistors equivalent to the first voltage divider circuit. 2. The calibration buffer circuit of claim 1 , wherein the second reference voltage select circuit comprises a multiplexer. 3. The calibration buffer circuit of claim 1 , wherein an output signal of each of a plurality of transition detection circuits in the eye monitor circuit has a first logical state in response to the transition and a second logical state in response to a lack of the transition. 4. The calibration buffer circuit of claim 1 , wherein each of a plurality of transition detection circuits in the eye monitor circuit further comprises: a first comparison circuit, having no latching, coupled to both an unlatched input and an unlatched output of an associated delay element of a plurality of delay elements coupled to receive an output of the calibration buffer circuit; and a storage element coupled to an output of a second logic gate, wherein an input of the second logic gate is coupled to an output of the storage element and an output of the first comparison circuit. 5. The calibration buffer circuit of claim 1 , wherein a resolution of the level of the reference voltage is determined by a number of resistors of the first voltage divider circuit. 6. The calibration buffer circuit of claim 1 , wherein the first voltage divider circuit further comprises: an enable circuit that enables the first voltage divider circuit to generate a plurality of levels of the reference voltage. 7. The calibration buffer circuit of claim 1 , further comprising: a voltage follower circuit coupled to the second reference voltage select circuit and to an input buffer circuit. 8. The calibration buffer circuit of claim 4 , wherein a resolution of the eye monitor circuit depends on a number of the plurality of delay elements. 9. The calibration buffer circuit of claim 1 , wherein the calibration control circuit further comprises: a counter circuit that tracks a number of consecutive bits of the output signal of the eye monitor circuit without a transition. 10. A circuit with a continuously self-calibrating reference voltage comprising: a data buffer circuit comprising: a first input buffer coupled to a data input and a reference voltage, the first input buffer transmitting an output in response to a comparison between a voltage level of the input data and a voltage level of the reference voltage, and a first reference voltage select circuit coupled to a first voltage divider circuit, the first reference voltage select circuit selecting a level of the reference voltage from the first voltage divider circuit based on a selection signal; and a calibration buffer circuit coupled to the first input buffer and the first reference voltage select circuit of the data buffer circuit, the calibration buffer circuit monitoring a number of transitions of an output of a second input buffer contemporaneously with transmission of the output of the first input buffer of the data buffer circuit, wherein the calibration buffer circuit comprises: the second input buffer coupled to the data input and a test reference voltage, with the test reference voltage derived separate from the reference voltage; an eye monitor circuit coupled to the second input buffer, the eye monitor circuit generating an output signal representative of timing of the transitions of the output of the second input buffer with respect to a clock signal; a calibration control circuit coupled in series with the eye monitor circuit, the calibration control circuit receiving the output signal from the eye monitor circuit, the calibration control circuit analyzing the output signal from the eye monitor circuit and providing a selection signal to the first reference voltage select circuit of the data buffer circuit, wherein the selection signal corresponds to the level of the reference voltage that produces a maximum horizontal width of an eye of the output of the first input buffer of the data buffer circuit based on a calibration of the test reference voltage; a second reference voltage select circuit coupled to the calibration control circuit, the second reference voltage select circuit transmitting the test reference voltage to the second input buffer; and a second voltage divider circuit coupled to the second reference voltage select circuit, the second voltage divider circuit having a series of resistors equivalent to the first voltage divider circuit. 11. The buffer circuit of claim 10 , wherein the calibration control circuit periodically updating the selection signal based on the number of consecutive bits without a transition in the output signal of the eye monitor circuit. 12. The buffer circuit of claim 10 , wherein the calibration control circuit generates a selection signal to the second reference voltage select circuit to select a level of the test reference voltage.