Multi-colored led array on a single substrate

What is claimed is: 1 . A multi-colored display, comprising: a semiconductor layer; a first emitter including a first light emitting diode (“LED”) integrated onto the semiconductor layer, the first emitter configured to output first light having a first wavelength; a second emitter including a second LED integrated onto the semiconductor layer, the second emitter configured to output second light having a second wavelength different from the first wavelength; and a third emitter including a third LED integrated onto the semiconductor layer, the third emitter configured to output third light having a third wavelength different from the first and second wavelengths, wherein the first, second, and third LEDs are integrated into a single semiconductor die that includes the semiconductor layer. 2 . The multi-colored display of claim 1 , wherein the first emitter includes a first quantum dot layer disposed over a first emission aperture of the first LED to convert pump light natively output from the first LED having a pump wavelength to the first light having the first wavelength, wherein the second emitter includes a second quantum dot layer disposed over a second emission aperture of the second LED to convert the pump light natively output from the second LED having the pump wavelength to the second light having the second wavelength, wherein the first and second wavelengths are different from each other and different from the pump wavelength. 3 . The multi-colored display of claim 2 , wherein the third emitter does not include a layer of quantum dots overlaying a third aperture of the third LED and wherein the third light is the pump light output natively from the third LED. 4 . The multi-colored display of claim 2 , wherein the third emitter includes a third quantum dot layer disposed over a third emission aperture of the third LED to convert the pump light natively output from the third LED having the pump wavelength to the third light having the third wavelength. 5 . The multi-colored display of claim 2 , further comprising: a first drive terminal electrically coupled to drive the first LED of the first emitter to output the first light; a second drive terminal electrically coupled to drive the second LED of the second emitter to output the second light; a third drive terminal electrically coupled to drive the third LED of the third emitter to output the third light; and a common terminal electrically coupled to each of the first, second, and third LEDs to provide a common ground, wherein the multi-colored display has only four terminals for driving the first, second, and third emitters with three different colors. 6 . The multi-colored display of claim 1 , wherein the single semiconductor die is disposed within a contact lens and wherein the multi-colored display is configured to provide a multi-colored visual indicator to a wearer of the contact lens. 7 . A multi-colored display, comprising: a semiconductor substrate layer; a first light emitting diode (“LED”) integrated onto the semiconductor substrate layer to natively emit pump light having a first color; a second LED integrated onto the semiconductor substrate layer to natively emit the pump light having the first color; and a first wavelength conversion layer disposed over an emission aperture of the second LED to convert the pump light natively emitted from the second LED to first output light having a second color different from the first color of the pump light, wherein the first wavelength conversion layer includes a first matrix of quantum dots, wherein the first and second LEDs are integrated into a single semiconductor die. 8 . The multi-colored display of claim 7 , wherein the first and second LEDs are fabricated on the single semiconductor die using a single manufacturing process for both the first and second LEDs. 9 . The multi-colored display of claim 7 , wherein the first and second LEDs are both fabricated of identical p and n semiconductor materials. 10 . The multi-colored display of claim 7 , further comprising: a third LED integrated onto the semiconductor substrate layer to natively emit the pump light having the first color; and a second wavelength conversion layer disposed over an emission aperture of the third LED to convert the pump light natively emitted from the third LED to second output light having a third color different from the first and second colors, wherein the second wavelength conversion layer includes a second matrix of quantum dots disposed, wherein the first, second, and third LEDs are integrated into the single semiconductor die. 11 . The multi-colored display of claim 10 , further comprising: a first drive terminal electrically coupled to the first LED to drive the first LED to generate the pump light; a second drive terminal electrically coupled to the second LED to drive the second LED to generate the pump light; a third drive terminal electrically coupled to the third LED to drive the third LED to generate the pump light; and a common terminal electrically coupled to each of the first, second, and third LEDs to provide a common ground, wherein the multi-colored display has only four terminals for driving the first, second, and third LEDs. 12 . The multi-colored display of claim 10 , wherein the first, second, and third LEDs comprise blue LEDs and the first color is blue. 13 . The multi-colored display of claim 12 , wherein an emission aperture of the first LED is not overlaid with a matrix of quantum dots and wherein the first LED outputs the pump light from the multi-colored display without conversion of the first color of the pump light. 14 . The multi-colored display of claim 12 , wherein the second color comprises red and the third color comprises green. 15 . The multi-colored display of claim 10 , wherein the pump light comprises white light. 16 . The multi-colored display of claim 10 , further comprising: a third wavelength conversion layer disposed over an emission aperture of the first LED to convert the pump light natively emitted from the first LED to third output light having a fourth color different from the second and third colors, wherein the third wavelength conversion layer includes a third matrix of quantum dots. 17 . The multi-colored display of claim 10 , further comprising: a plurality of first, second, and third LEDs forming a pixel array; a plurality of first wavelength conversion layers disposed over the second LEDs; a plurality of second wavelength conversion layers disposed over the third LEDs; and addressing circuitry coupled to receive an image data stream and coupled to drive the pixel array with the image data stream. 18 . The multi-colored display of claim 7 , wherein the single semiconductor die is disposed within a contact lens and wherein the multi-colored display is configured to provide a multi-colored visual indicator to a wearer of the contact lens. 19 . The multi-colored display of claim 7 , wherein the first and second LEDs share either a common anode semiconductor layer or a common cathode semiconductor layer. 20 . A method of generating multi-colored light, comprising: generating pump light having a first color from a plurality of light emitting diodes (“LEDs”) integrated into a single semiconductor die, wherein all of the LEDs are fabricated of identical p and n semiconductor materials; converting the pump light output from a first LED to first output light having a second color different from t