Semiconductor device with an integrated heat sink array

The invention claimed is: 1. A semiconductor system comprising a plurality of semiconductor devices, each semiconductor device of the plurality of semiconductor devices comprising an array of separated heat sinks; the heat sinks integrated into the semiconductor device and being arranged such that the spacing between adjacent heat sinks is smaller at the centre of the semiconductor device than the spacing between adjacent heat sinks outside the centre of the semiconductor device, wherein a first semiconductor device of the plurality of semiconductor devices is coupled to heat sinks of a second semiconductor device of the plurality of semiconductor devices, wherein the devices that are located in a row or column are separated from one another by multiple heat sink arrays, wherein multiple rows or columns of semiconductor devices and multiple rows or columns of heat sink arrays are arranged in an alternating structure, wherein the multiple rows or columns of semiconductor devices comprise more than three rows or columns of semiconductor devices, wherein each array of separated heat sinks comprises a column of heat sink plugs that are separate from each other, wherein a distance between two adjacent heat sink plugs of the column of heat sink plugs follows a geometric series and decreases from an edge of a corresponding semiconductor device towards the centre of the corresponding semiconductor device, and wherein the width of the column of heat sink plugs increases from an edge of the semiconductor system towards a centre of the semiconductor system. 2. The semiconductor system of claim 1 , wherein the density of heat sinks is greater at the centre of the semiconductor device than the density of heat sinks outside the centre of the semiconductor device. 3. The semiconductor system of claim 1 , wherein the distance between adjacent heat sinks increases with distance from the centre of the semiconductor device towards an edge of the semiconductor device. 4. The semiconductor system of claim 1 , wherein said heat sinks at the centre of the semiconductor device are inner heat sink elements and said heat sinks outside the centre of the semiconductor device are outer heat sink elements. 5. The semiconductor system of claim 1 , wherein a thermal conductance of an inner heat sink elements is greater than a thermal conductance of an outer heat sink elements. 6. The semiconductor system of claim 5 , said inner heat sink elements having a first volume and said outer heat sink elements having a second volume, wherein the first volume is greater than the second volume. 7. The semiconductor system of claim 6 , said inner heat sink elements having a first cross-sectional area and said outer heat sink elements having a second cross-sectional area, wherein the first cross-sectional area is greater than the second cross-sectional area. 8. The semiconductor system of claim 4 , further comprising intermediate heat sink elements disposed between the inner heat sink elements and said outer heat sink elements, and having a thermal conductance intermediate that of said inner heat sink elements and said outer heat sink elements. 9. The semiconductor system of claim 1 , wherein said heat sink elements are disposed on a corresponding semiconductor die. 10. The semiconductor system of claim 1 , wherein each of the semiconductor devices arranged as an array share a common substrate. 11. The semiconductor system of claim 1 , wherein the semiconductor devices are arranged as a regular array. 12. The semiconductor system of claim 11 , wherein the regular array is an n x m array, where n and m are positive integers. 13. The semiconductor system of claim 1 , further comprising an isolation ring that is provided around the periphery of said device. 14. A semiconductor system comprising a plurality of semiconductor devices, each semiconductor device of the plurality of semiconductor devices comprising an array of separated heat sinks; the heat sinks integrated into the semiconductor device and being arranged such that the spacing between adjacent heat sinks is smaller at the centre of the semiconductor device than the spacing between adjacent heat sinks outside the centre of the semiconductor device, wherein a first semiconductor device of the plurality of semiconductor devices is coupled to heat sinks of a second semiconductor device of the plurality of semiconductor devices, wherein the devices that are located in a row or column are separated from one another by multiple heat sink arrays, wherein multiple rows or columns of semiconductor devices and multiple rows or columns of heat sink arrays are arranged in an alternating structure, wherein the multiple rows or columns of semiconductor devices comprise more than three rows or columns of semiconductor devices, wherein the array of the heat sinks and an array of the semiconductor dies are triangular arrays, wherein each array of separated heat sinks comprises a column of heat sink plugs that are separate from each other, wherein a distance between two adjacent heat sink plugs of the column of heat sink plugs follows a geometric series and decreases from an edge of a corresponding semiconductor device towards the centre of the corresponding semiconductor device, and wherein the width of the column of heat sink plugs increases from an edge of the semiconductor system towards a centre of the semiconductor system. 15. The semiconductor system of claim 1 , wherein an operating temperature of each semiconductor device is substantially constant from the edge of the semiconductor system towards the centre of the semiconductor system.