Data center power systems with dynamic source designation

That which is claimed: 1. A data center power distribution system comprising: at least one switch configured to couple at least one first power source to a load; at least one Converter configured to couple at least one second power source to the load; and a control circuit configured to implement a state machine that controls the at least one switch and the at least one converter to redundantly provide power to the load, wherein the control circuit is configured to vary priority designations used in the state machine for the at least one first power source and the at least one second power source responsive to a control input to vary a priority applied by the state machine to the at least one first power source and the at least one second power source, wherein the priority designations identify one of the at least one first power source and the at least one second power source as a primary power source when the one of the at least one first power source and the at least one second power source satisfies at least two primary power source criteria, and the priority designations identify another one of the at least one first power source and the at least one second power source as a secondary power source for replacing the primary power source when the another one of the at least one first power source and the at least one second power source satisfies only one of the at least two primary power source criteria. 2. The system of claim 1 , wherein the secondary power source comprises a plurality of secondary sources and wherein the control circuit is configured to vary priorities among the plurality of secondary sources responsive to the control input. 3. The system of claim 1 , wherein the control input comprises a cost and/or a schedule. 4. The system of claim 1 , wherein the at least one converter comprises a cascade combination of a Direct Current (DC)/DC converter and an inverter. 5. The system of claim 1 , wherein the at least one switch and the at least one converter comprise first and second switches and one converter integrated in a single assembly with the control circuit. 6. The system of claim 1 , wherein the at least one first power source comprises at least one Alternating Current (AC) source and wherein the at least one second power source comprises at least one Direct Current (DC) source. 7. The system of claim 1 , wherein the at least one first power source comprises at least one Direct Current (DC) source and wherein the at least one second power source comprises at least one Alternating Current (AC) source. 8. An uninterruptible power supply (UPS) comprising: first and second static switches configured to couple respective first and second Alternating Current (AC) power sources to a load; a Direct Current (DC)/DC converter having a first port configured to be coupled to a DC power source; an inverter having a first port coupled to a second port of the DC/DC converter and a second port; configured to be coupled to a load, the first and second static-switches, the DC/DC converter and the inverter integrated in a single assembly; and a control circuit configured to implement a state machine that controls the first and second static switches, the DC/DC converter and the inverter to redundantly provide power to the load, wherein the control circuit is configured to vary priority designations used by the state machine for the first and second AC power sources and the DC power source responsive to a control input to vary a priority applied by the state machine for the first and second AC power sources and the DC power source, wherein the priority designations identify at least one of the first AC power source, the second AC power source, and the DC power source as a primary power source when the at least one of the first AC power source, the second AC power source, and the DC power source satisfies at least two primary power source criteria, and the priority designations identify at least another one of the first AC power source, the second AC power source, and the DC power source as a secondary power source for replacing the primary power source when the at least another one of the first AC power source, the second AC power source, and the DC power source satisfies only one of at least two primary power source criteria. 9. The UPS of claim 8 , wherein the control input comprises a cost and/or a schedule. 10. A method comprising: providing a data center power distribution system comprising at least one switch configured to couple at least one first power source to a load and at least one converter configured to couple at least one second power source to the load; operating a state machine that controls the at least one switch and the at least one converter to redundantly provide powder to the load using priority designations for the at least one first power source and the at least one second power source; and varying the priority designations used by the state machine for the at least one first power source and the at least one second power source responsive to a control input to vary a priority applied by the state machine tor the at least one first power source and the at least one second power source responsive to the control input, wherein the priority designations identify one of the at least one first power source and the at least one second power source as a primary power source when the one of the at least one first power source and the at least one second power source satisfies at least two primary power source criteria, and the priority designations identify another one of the at least one first power source and the at least one second power source as a secondary power source for replacing the primary power source when the another one of the at least one first power source and the at least one second power source satisfies only one of the at least two primary power source criteria. 11. The method of claim 10 , wherein the control input comprises a cost and /or a schedule. 12. The method of claim 10 , wherein the at least one first power source comprises at least one Alternating Current (AC) source and wherein the at least one second power source comprises at least one Direct Current (DC) source. 13. The method of claim 10 , wherein the at least one first power source comprises at least one Direct Current (DC) source and wherein the at least one second power source comprises at least one Alternating Current (AC) source.