LED luminaire having lateral cooling fins and adaptive LED assembly

We claim: 1. A luminaire housing made of thermally conductive material and comprising: a longitudinally extending core having a substantially flat top wall, a substantially flat bottom wall and two opposite side walls connecting the top wall to the bottom wall, the core having a mean external width and a medial longitudinal vertical plane, and at least five external, vertically spaced, substantially parallel cooling fins carried by each side wall, said cooling fins extending longitudinally and projecting laterally outwardly in a downward slope, each cooling fin terminating laterally in a distal edge and having a lateral cantilevered length and a reach defined by the lateral distance of its distal edge from said medial longitudinal vertical plane, wherein the reaches of a group of at least four consecutive cooling fins of each side wall increase progressively from the top cooling fin of the group to the bottom cooling fin of the group and the lateral cantilevered length of the majority of the cooling fins of each side wall is at least about 35% of the mean external width of the core. 2. The luminaire housing of claim 1 , wherein each group comprises at least six consecutive cooling fins. 3. The luminaire housing of claim 2 , wherein each cooling fin of each group has a substantially uniform thickness. 4. The luminaire housing of claim 3 , wherein all of the cooling fins of each group have substantially the same thickness. 5. The luminaire housing of claim 1 , wherein each of the cooling fins of each group slopes downwardly and outwardly at an angle of about 5 degrees from the horizontal. 6. The luminaire housing of claim 1 , wherein the reach differential between adjacent cooling fins of each group decreases progressively from the top cooling fin of each group to the bottom cooling fin of each group. 7. The luminaire housing of claim 6 , wherein the distal edges of the cooling fins of each group lie substantially along a constant-radius arc. 8. The luminaire housing of claim 1 , wherein the cooling fins of each group are substantially uniformly spaced from one another. 9. The luminaire housing of claim 8 , wherein the lateral cantilevered length of each of the cooling fins of each group is greater than the space between them. 10. The luminaire housing of claim 9 , wherein the ratio of the lateral cantilevered lengths of the cooling fins of each group to the space between them is in the range of about 2:1 to about 8:1. 11. The luminaire housing of claim 1 , wherein the overall height of the core is about one-third the span between the distal edges of a pair of cooling fins of opposite side walls having the greatest reach. 12. The luminaire housing of claim 1 , wherein the housing is substantially symmetrical about said medial longitudinal vertical plane. 13. The luminaire housing of claim 1 , wherein the top wall, the bottom wall, the two opposite side walls and the cooling fins are integrally formed as a unit. 14. The luminaire housing of claim 13 , wherein the top wall, the bottom wall, the two opposite side walls and the cooling fins are a unitary extrusion of one piece of material. 15. A luminaire comprising the housing of claim 1 , a downwardly facing light emitting diode assembly supported below the bottom wall of the core, and a driver within the core electrically coupled to the light emitting diode assembly. 16. The luminaire housing of claim 1 , wherein the lateral cantilevered length of the longest cooling fin of each side wall is about two thirds the overall height of the core. 17. The luminaire housing of claim 16 , wherein the lateral cantilevered length of the longest cooling fin of each side wall is about 45% of the mean external width of the core. 18. The luminaire housing of claim 16 , wherein the lateral cantilevered length of the longest cooling fin of each side wall is about 23% of the overall width of the housing. 19. The luminaire housing of claim 1 , wherein the ratio of the total of the lateral cantilevered lengths of all of the cooling fins to the perimeter of the housing is about 1.7:1. 20. The luminaire housing of claim 1 , wherein the total thickness of the cooling fins of each side wall is not more than about 30% of the overall height of the core. 21. The luminaire housing of claim 20 , wherein a medial group of cooling fins of each side wall have substantially the same thickness and are substantially uniformly spaced. 22. The luminaire housing of claim 21 , wherein the ratio of the space between the cooling fins of each of said medial groups to the thickness thereof is at least about 2.9:1. 23. The luminaire housing of claim 22 , wherein each of said medial groups comprises six cooling fins. 24. The luminaire housing of claim 1 , wherein some of the cooling fins of each side wall have different lateral cantilevered lengths. 25. The luminaire housing of claim 1 , wherein the top wall is narrower than the bottom wall. 26. The luminaire of claim 15 , wherein the driver assembly is removably supported by the side walls above the bottom wall. 27. The luminaire of claim 26 , wherein the driver assembly is slidably received in and supported by two longitudinally extending internal grooves, one in each side wall. 28. The luminaire of claim 26 , wherein the housing is substantially symmetrical about said medial longitudinal vertical plane. 29. The luminaire of claim 26 , wherein the top wall, the bottom wall, the two opposite side walls and the cooling fins are integrally formed as a unit. 30. The luminaire of claim 29 , wherein the top wall, the bottom wall, the two opposite side walls and the cooling fins are a unitary extrusion of one piece of material. 31. The luminaire of claim 26 , further comprising an end cap at each end of the housing configured to cover ends of the top wall, the bottom wall, the two opposite side walls and the cooling fins, at least one of the end caps being removable.