Light guide for an instrument cluster

What is claimed is: 1. An instrument cluster comprising: a light guide having a first end portion, the light guide being at least partially tubular and having a first side disposed opposite a second side; and a pixelated display screen having an outer periphery located adjacent the first end portion of the light guide, wherein the display screen is configured to emit light into the light guide to illuminate the light guide, an instrument face and located radially inward from the light guide and adjacent the first end portion of the light guide and radially inward from the outer periphery of the display screen; the light guide comprising an instrument hood, the light guide haying a maximum thickness substantially less than a maximum thickness of the display screen, the first side of the light guide extending a first distance from the first end portion to a second end portion, and the second side of the light guide extending a second distance from the first end portion to the second end portion, the first distance being greater than the second distance wherein the light guide encircles the instrument face and extends outwardly with respect to a plane of said display and adjacent an outside perimeter of the instrument face. 2. The instrument cluster of claim 1 , comprising an instrument face located radially inward from the light guide and adjacent the first end portion of the light guide. 3. The instrument cluster of claim 1 , wherein the light guide is made of a transparent thermoplastic. 4. The instrument cluster of claim 1 , wherein the first end portion of the light guide includes a light receiving portion. 5. The instrument cluster of claim 4 , wherein the display screen is configured to emit light into the light receiving portion. 6. The instrument cluster of claim 1 , wherein a second end portion of the light guide including a transitional portion. 7. The instrument cluster of claim 1 , wherein the display screen is a thin film transistor. 8. The instrument cluster of claim 1 , wherein the first end portion of the light guide is spaced inwardly from a perimeter of the display screen. 9. An instrument cluster assembly comprising: a housing; at least one light guide instrument hood having a first end portion located within the housing, the light guide being at least partially tubular and having a first side disposed opposite a second side; an instrument face for a gauge of a vehicle, and at least one pixelated display screen having an outer periphery extending beyond the display face located adjacent the first end portion of the at least one light guide, the first side of the at least one light guide extending a first distance from the first end portion to a second end portion, and the second side of the at least one light guide extending a second distance from the first end portion to the second end portion, the first distance being greater than the second distance, wherein the at least one display screen is configured to communicate light to the at least one light guide for illuminating the at least one light guide wherein the light guide encircles the instrument face and extends outwardly with respect to a plane of said display and adjacent an outside perimeter of the instrument face, and wherein the light guide has a maximum thickness substantially less than a maximum thickness of the display screen. 10. The instrument cluster assembly of claim 9 , further including wherein the instrument face is located radially inward from the at least one light guide and adjacent the first end portion of the at least one light guide. 11. The instrument cluster assembly of claim 9 , wherein the first end portion of the at least one light guide includes a light receiving portion. 12. The instrument cluster assembly of claim 11 , wherein the display screen is configured to emit light into the light receiving portion. 13. A method of illuminating an instrument cluster comprising: providing an instrument face and a pixelated display screen extending beyond an outer periphery of the instrument face illuminating first and second sides of a light guide instrument hood, that is at least partially encircling the instrument face, said light guide being at least partially tubular, the first and second sides having unequal lengths, with the display screen, and wherein the light guide has a maximum thickness substantially less than a maximum thickness of the display; and varying a luminance and a color of the display screen to vary a luminance and a color of the first and second sides of the light guide, wherein the light guide extends outwardly with respect to a plane of said display and adjacent an outside perimeter of the instrument face. 14. The method of claim 13 , wherein a first portion of the display screen has a first luminance and a second portion of the display screen has a second luminance that is different from the first luminance. 15. The method of claim 14 , wherein a first portion of the display screen has a first color and a second portion of the display screen has a second color that is different from the first color. 16. The method of claim 13 , wherein the light guide includes an instrument face located radially inward from the light guide.