Storage cluster

What is claimed is: 1. A method for managing processing power in a storage system, comprising: providing a plurality of blades, each of a first subset having a storage node and storage memory, and each of a second, differing subset having a compute-only node; and distributing authorities across the plurality of blades, to a plurality of nodes including at least one compute-only node, wherein each authority has ownership of a range of user data. 2. The method of claim 1 , further comprising: adding another blade having a compute-only node; and re-distributing the authorities across the plurality of blades and the another blade. 3. The method of claim 1 , wherein the distributing the authorities comprises: moving one or more authorities from one or more of the plurality of blades to a further one of the plurality of blades, responsive to adding the further one of the plurality of blades to the storage system. 4. The method of claim 1 , wherein the distributing the authorities is in accordance with balancing computing resources across the authorities, for each of the plurality of blades. 5. The method of claim 1 , further comprising: distributing computing tasks of external I/O (input/output) processing across the plurality of blades so that I/O processing for each of a plurality of classes of service is assigned to one or more storage nodes or compute nodes on an individual service class basis. 6. The method of claim 1 , wherein: the plurality of blades includes a first blade having a first set of processing characteristics including an amount of random access memory (RAM), processor speed or number of processor cores and a second blade having a second set of processing characteristics including an amount of RAM, processor speed or number of processor cores; and a greater number of authorities is distributed to the second blade than to the first blade so as to balance the processing characteristics available to authorities of the first blade and authorities of the second blade. 7. The method of claim 1 , wherein: computing tasks of one or more applications in an application layer are distributed across at least one of the plurality of blades; and the distributing the authorities is in proportion to relative amount of processing power available at each of the plurality of blades. 8. A tangible, non-transitory, computer-readable media having instructions thereupon which, when executed by a processor, cause the processor to perform a method comprising: providing a plurality of blades, each of a first subset having a storage node and storage memory, and each of a second, differing subset having a compute-only node; and distributing authorities across the plurality of blades, to a plurality of nodes including at least one compute-only node, wherein each authority has ownership of a range of user data. 9. The computer-readable media of claim 8 , wherein the method further comprises: adding another blade having a compute-only node; and re-distributing the authorities across the plurality of blades and the another blade. 10. The computer-readable media of claim 8 , wherein the distributing the authorities comprises: moving one or more authorities from one or more of the plurality of blades to a further one of the plurality of blades, responsive to adding the further one of the plurality of blades to the storage system. 11. The computer-readable media of claim 8 , wherein the distributing the authorities is in accordance with balancing computing resources across the authorities, for each of the plurality of blades. 12. The computer-readable media of claim 8 , wherein the method further comprises: distributing computing tasks of external I/O (input/output) processing across the plurality of blades so that I/O processing for each of a plurality of classes of service is assigned to one or more storage nodes or compute nodes on an individual service class basis. 13. The computer-readable media of claim 8 , wherein: the plurality of blades includes a first blade having a first set of processing characteristics including an amount of random access memory (RAM), processor speed or number of processor cores and a second blade having a second set of processing characteristics including an amount of RAM, processor speed or number of processor cores; and a greater number of authorities is distributed to the second blade than to the first blade so as to balance the processing characteristics available to authorities of the first blade and authorities of the second blade. 14. A storage system, comprising: a plurality of blades, each of a first subset having a storage node and storage memory, and each of a second, differing subset having a compute-only node; and the plurality of blades forming the storage system, wherein authorities are distributed across the plurality of blades, to a plurality of nodes including at least one compute-only node, and wherein each authority has ownership of a range of user data. 15. The storage system of claim 14 , configured to: add another blade having a compute-only node; and re-distribute the authorities across the plurality of blades and the another blade. 16. The storage system of claim 14 , wherein the plurality of blades are configured to distribute the authorities by moving one or more authorities from one or more of the plurality of blades to a further one of the plurality of blades, responsive to adding the further one of the plurality of blades to the storage system. 17. The storage system of claim 14 , wherein the authorities are distributed in accordance with balancing computing resources across the authorities, for each of the plurality of blades. 18. The storage system of claim 14 , wherein: computing tasks of external I/O (input/output) processing are distributed across the plurality of blades so that I/O processing for each of a plurality of classes of service is assigned to one or more storage nodes or compute nodes on an individual service class basis. 19. The storage system of claim 14 , wherein: the plurality of blades includes a first blade having a first set of processing characteristics including amount of random access memory (RAM), processor speed or number of processor cores and a second blade having a second set of processing characteristics including an amount of RAM, processor speed or number of processor cores; and a greater number of authorities is distributed to the second blade than to the first blade so as to balance the processing characteristics available to authorities of the first blade and authorities of the second blade. 20. The storage system of claim 14 , wherein: computing tasks of one or more applications in an application layer are distributed across at least one of the plurality of blades; and the distributing the authorities is in proportion to relative amount of processing power available at each of the plurality of blades.