Flexible power support redundancy busway system

What is claimed is: 1. A data center, comprising: an aisle space comprising a plurality of regions, each region spanning a limited portion of a length of the aisle space and a full width of the aisle space; at least one row of rack computer systems extending along the length of the aisle space, wherein each of the rack computer systems comprises one or more computer systems and is located in at least one of the plurality of regions; at least two primary power busways extending in a staggered configuration through an elevated portion of the aisle space in parallel with the at least one row of rack computer systems, wherein each of the primary power busways extending in a staggered configuration extends less than a full length of the at least one row of rack computer system and extends through a particular region of the aisle space that is free of at least one other of the primary power busways; and at least one secondary power busway extending through the elevated portion of the aisle space, in parallel with, and along an entire length of, the at least one row of rack computer systems; wherein the secondary power busway and a particular one of the primary power busways extending through a particular region of the aisle space are configured to electrically couple, via separate power cables, to a proximate rack computer system located in the particular region to provide a particular power support redundancy to the proximate rack computer system. 2. The data center of claim 1 , wherein: to extend in a staggered configuration, each of the at least two primary power busways extend at least partially through a common region of the aisle space; and wherein the at least two primary power busways are configured to electrically couple, via separate power cables, to another proximate rack computer system located in the common region to provide another particular power support redundancy to the other particular rack computer system. 3. The data center of claim 1 , wherein: to electrically couple, via separate power cables, to the proximate rack computer system, the secondary power busway and particular primary power busway are configured to couple with a switching device assembly, via the separate power cables, where the switching assembly selectively routes power from one of the secondary power busway and particular primary power busway to the rack computer system via a branch circuit; and the secondary power busway and primary power busways are configured to change the power support redundancy provided to the particular rack computer system, wherein, to change the power support redundancy provided to the particular rack computer system, the particular primary power busway is decoupled from the switch device assembly via a particular power cable, and another particular primary power busway is coupled to the switch device assembly via the particular power cable while maintaining distribution of power to the at least one of the rack computer systems via at least one other of the power cables and the branch circuit. 4. The data center of claim 1 , wherein: to electrically couple, via separate power cables, to a proximate rack computer system located in the particular region, the secondary power busway and the particular one of the primary power busways extending through a particular region of the aisle space are configured to couple with the proximate rack computing via separate power cables that each have a limited length corresponding to a size of the particular region of the aisle space, such that the proximate rack computer system is restricted to receiving power support from busways extending at least partially through the particular region of the aisle space. 5. A system, comprising: a plurality of power busways configured to extend through one or more regions of an aisle space, each region spanning a full width and a separate limited portion of a length of the aisle space, wherein at least two of the power busways comprise primary power busways configured to distribute power from separate primary power sources and at least one of the power busways comprises a secondary power busway configured to distribute power from at least one secondary power source; wherein the plurality of power busways are configured to interchangeably provide at least one of a plurality of power support redundancies to at least one electrical load located in the aisle space, based at least in part upon which one or more of the plurality of power busways are interchangeably coupled to a power inlet of the electrical load via at least separate tap boxes. 6. The system of claim 5 , wherein: the at least two primary power busways extend in a staggered configuration through the aisle space, wherein at least one of the at least two primary power busways extending in a staggered configuration extends less than a full length of the aisle space and extends through a particular region of the aisle space that is free of at least one other of the at least two primary power busways. 7. The system of claim 6 , wherein: to extend in a staggered configuration, both of the at least two primary power busways extend at least partially through a common region of the aisle space; and to interchangeably provide at least one of a plurality of power support redundancies to at least one electrical load located in the aisle space, the at least two primary power busways are configured to provide primary power support redundancy to an electrical load in the common region of the aisle space. 8. The system of claim 7 , wherein: the common region of the aisle space extends through a central region of the aisle space; and each of the at least two primary power busways extend at least partially, and independent of each other, through separate particular regions of the aisle space extending away from the central region of the aisle space towards opposite ends of the aisle space. 9. The system of claim 8 , wherein: each of the primary power busways is configured to provide exclusive primary power support to electrical loads located in a respective region through which the respective primary power busway extends independently of other primary power busways; and the secondary power busway is configured to provide secondary power support to electrical loads that are located in separate respective regions of the aisle space and receiving primary power support from separate primary power busways extending exclusively through the separate respective regions. 10. The system of claim 7 , wherein, to interchangeably provide primary power support redundancy to an electrical load in the common region of the aisle space, the plurality of power busways are configured to: electrically couple with a particular rack computer system, via respective tap boxes coupled to each of the at least two primary power busways; and electrically decouple from the particular rack computer system, via the respective tap boxes. 11. The system of claim 5 , wherein: to interchangeably provide at least one of a plurality of power support redundancies to at least one electrical load located in the aisle space, each of the plurality of power busways are configured to electrically couple with one or more electrical loads via separate power cables that are each coupled to a separate one of the separate tap boxes and each have a limited length corresponding to a size of the particular region of the aisle space through which the power busway extends independently of at least one other of the plurality of power busways, such that the electrical loads located in the particular region are restricted from electrically coupling with at least the other power busway. 12. T