Headlight with clusters of semiconductor light sources

What is claimed is: 1. A headlight, comprising: a first light emitting diode cluster having a plurality of first light emitting diodes, which are arranged next to one another on a common first substrate; a second light emitting diode cluster having a plurality of second light emitting diodes, which are arranged next to one another on a common second substrate; an output coupling optical unit having a plurality of optical elements, of which an optical element which comes first in a beam path of the light emitting diode clusters has, in the form of a first lens, a light incidence surface which is common to the light emitting diode clusters and has a specified basic shape; wherein the light emitting diode clusters have a lateral distance from one another which is at least as great as an entire extent of at least one of the light emitting diode clusters in the same direction; wherein the common light incidence surface has at least one locally delimited light incidence region directly in front of an associated light emitting diode cluster; and wherein the at least one locally delimited light incidence region deviates from the basic shape of the light incidence surface. 2. The headlight of claim 1 , wherein the at least one light incidence region has a roundish outer contour and is inclined with respect to the basic shape of the light incidence surface. 3. The headlight of claim 2 , wherein the inclinations of the light incidence regions are oriented in the same way. 4. The headlight of claim 2 , wherein at least one light incidence region is offset with respect to an optical axis of the first lens or the output coupling optical unit. 5. The headlight of claim 1 , wherein at least one light incidence region has a surface shape that is the same as the basic shape of the light incidence surface. 6. The headlight of claim 1 , wherein at least one light incidence region has a surface shape that differs from the basic shape of the light incidence surface. 7. The headlight of claim 6 , wherein a surface of at least one light incidence region is a free-form surface. 8. The headlight of claim 1 , wherein the light incidence regions lie within a projection region of a perpendicular projection starting from the associated substrate. 9. The headlight of claim 1 , wherein the light incidence regions lie within a light beam, emitted by the associated light emitting diode cluster, having at least a respective half maximum radiant intensity. 10. The headlight of claim 1 , wherein the light emitting diode clusters each have a plurality of light emitting diode chips, which are arranged next to one another on an associated level substrate; wherein a lateral distance between neighboring light emitting diode chips of a light emitting diode cluster is substantially smaller than the lateral distance between neighboring light emitting diode clusters. 11. The headlight of claim 10 , wherein the planes of the substrates that carry the light emitting diode chips are arranged in a common plane next to one another. 12. The headlight of claim 1 , wherein the headlight is a vehicle headlight. 13. The headlight of claim 12 , wherein the vehicle headlight is a headlight for front illumination. 14. The headlight of claim 1 , wherein the lateral distance (L 1 ) of the light emitting diode clusters ( 2 , 5 ) from one another is greater than the entire extent (L 2 ) of the at least one of the first and second light emitting diode clusters ( 2 ; 5 ). 15. The headlight of claim 14 , wherein the lateral distance (L 1 ) of the light emitting diode clusters ( 2 , 5 ) from one another is greater than the entire extent of each of the respective first and second light emitting diode clusters ( 2 , 5 ). 16. The headlight of claim 15 , wherein the basic shape of the light incidence surface ( 12 ) of the first lens ( 8 , 9 ) is convexly curved towards the first and second light emitting diode clusters ( 2 , 5 ). 17. The headlight of claim 14 , wherein the basic shape of the light incidence surface ( 12 ) of the first lens ( 8 , 9 ) is non-planar. 18. The headlight of claim 14 , wherein the basic shape of the light incidence surface ( 12 ) of the first lens ( 8 , 9 ) is convexly curved towards the first and second light emitting diode clusters ( 2 , 5 ). 19. The headlight of claim 1 , wherein the basic shape of the light incidence surface ( 12 ) of the first lens ( 8 , 9 ) is non-planar. 20. The headlight of claim 1 , wherein the basic shape of the light incidence surface ( 12 ) of the first lens ( 8 , 9 ) is convexly curved towards the first and second light emitting diode clusters ( 2 , 5 ). 21. The headlight of claim 1 , wherein said lateral distance is viewed on an upstream side or a light-incident side of said light incidence surface.