Abrading tool for a rotary dresser

The invention claimed is: 1. A roller assembly for a rotary dresser comprising a plurality of discs, each disc provided with a radially outer surface that is abrasive, the plurality of discs secured in axial alignment, each in a preconfigured rotational orientation and a centrally arranged aperture for receiving a rotor shaft and wherein the radially outer surface of one or more discs has been subjected to a process of material removal whereby to form a pre-defined pattern of individual abrasive units, wherein the plurality of discs comprising discs having different outer diameters, and the plurality of discs are arranged with discs having outer diameters that are the largest positioned in a middle of the roller assembly and are arranged such that diameters of subsequent discs are smaller from the middle of the roller assembly to each axial end of the roller assembly. 2. A roller assembly as claimed in claim 1 wherein one or more of the discs are composed from multiple disc segments. 3. A roller assembly as claimed in claim 1 wherein the radially outer surface of each disc has been processed using an energy beam ablation technique to remove material from an evenly distributed layer of abrasive material whereby to provide individually formed abrasive units. 4. A roller assembly as claimed in claim 3 wherein the abrasive material is polycrystalline diamond (PCD). 5. A roller assembly as claimed in claim 1 wherein the geometry of the abrasive units includes at least a primary rake angle (γ) and a primary clearance angle (α). 6. A roller assembly as claimed in claim 5 wherein the geometry of the abrasive units further includes a secondary rake angle and a secondary clearance angle different from the primary rake angle (γ) and primary clearance angle (α). 7. A roller assembly as claimed in claim 1 wherein not all the discs share the same population density of abrasive units on their radially outer surface. 8. A roller assembly as claimed in claim 1 further comprising a hub received in a common bore of the plurality of discs, first and second flanges arranged on opposite axially facing surfaces of the plurality of discs, an arrangement of tapped holes extending through each flange and into the hub and an arrangement of fasteners securely received in the tapped holes, whereby to hold the discs, flanges and hub in axial and rotational alignment. 9. A roller assembly as claimed in claim 8 wherein one or more of the discs comprise of multiple segments which are arcuate, each of the multiple segments having an axially facing surface, a radially outer surface and a pair of symmetrically arranged holes passing therethrough, recesses are provided in one or both of the flanges in alignment with the holes and locking pins are located in the aligned holes and recesses. 10. A roller assembly as claimed in claim 8 mounted on a rotor shaft between axially aligned spacers and rotationally and axially locked in position by means of a locking nut. 11. A roller assembly as claimed in claim 1 wherein the geometry of the abrasive units is not consistent between all discs. 12. A roller assembly as claimed in claim 1 comprising a radially outer surface presenting an array of abrasive units arranged in a pre-defined pattern, wherein the pattern is configured to provide flow channels between abrasive units across the radially outer surface. 13. A roller assembly as claimed in claim 1 wherein a radially outwardly facing surface of one or more abrasive units is provided with a pattern of micro abrasive units of substantially smaller proportions than the abrasive units. 14. A roller assembly as claimed in claim 1 wherein a difference between outer diameters of adjacent discs is less for discs positioned at ends of the roller assembly than for discs positioned toward the middle of the roller assembly. 15. A roller assembly for a rotary dresser comprising a plurality of discs, each disc provided with a radially outer surface that is abrasive, the discs secured in axial alignment, each in a preconfigured rotational orientation and a centrally arranged aperture for receiving a rotor shaft and wherein the radially outer surface of two or more discs has been subjected to a process of material removal whereby to form a pre-defined pattern of individual abrasive units, wherein each of the individual abrasive units, which are located on a first disc of the plurality of discs, include a first geometry, and each of the individual abrasive units, which are located on a second disc of the plurality of discs, include a second geometry that is different than the first geometry. 16. A roller assembly as claimed in claim 15 wherein the radially outer surface of each disc has been processed using an energy beam ablation technique to remove material from an evenly distributed layer of abrasive material whereby to provide individually formed abrasive units. 17. A roller assembly as claimed in claim 15 wherein the geometry of the abrasive units includes at least a primary rake angle (γ) and a primary clearance angle (α). 18. A roller assembly as claimed in claim 17 wherein the geometry of the abrasive units further includes a secondary rake angle and a secondary clearance angle different from the primary rake angle (γ) and primary clearance angle (α). 19. A roller assembly as claimed in claim 15 wherein one or more of the discs are composed from multiple disc segments, the roller assembly further comprising a hub received in a common bore of the plurality of discs, first and second flanges arranged on opposite axially facing surfaces of the plurality of discs, an arrangement of tapped holes extending through each flange and into the hub and an arrangement of fasteners securely received in the tapped holes, whereby to hold the discs, flanges and hub in axial and rotational alignment. 20. A roller assembly as claimed in claim 19 wherein one or more of the discs comprise of multiple segments which are arcuate, each having an axially facing surface, a radially outer surface and a pair of symmetrically arranged holes passing therethrough, recesses are provided in one or both of the flanges in alignment with the holes and locking pins are located in the aligned holes and recesses. 21. A roller assembly as claimed in claim 15 wherein not all the discs share the same population density of abrasive units on their radially outer surface. 22. A roller assembly as claimed in claim 15 comprising a radially outer surface presenting an array of abrasive units arranged in a pre-defined pattern, wherein the pattern is configured to provide flow channels between abrasive units across the radially outer surface. 23. A roller assembly as claimed in claim 15 wherein a radially outwardly facing surface of one or more abrasive units is provided with a pattern of micro abrasive units of substantially smaller proportions than the abrasive units. 24. A roller assembly as claimed in claim 15 wherein the discs are provided in a range of diameters and are arranged in a pre-defined order to provide a pre-defined, non-linear circumferential profile of the roller assembly.