Systems and methods for power supply configuration and control

What is claimed is: 1. An information handling system, comprising: one or more power-consuming components that together constitute a system load; at least one power supply unit (PSU) coupled to supply power to the system load, the PSU being configured to supply power to the system load using two or more available non-zero PSU operational power modes that each have a different respective deliverable power range; and at least one processing device configured to: determine a current power policy for the system load, the current power policy specifying a current power policy power level for the system load that corresponds to at least one of a total maximum possible power consumption level of the currently installed power-consuming components of the system load, a power-capped total power consumption level of the power-consuming components of the system load, or a combination thereof, select a first one of the PSU operational power modes of the at least one PSU based on the determined current power policy for the system load, and cause the PSU to supply power to the system load using the selected first one of the PSU operational power modes; and where the system further comprises non-volatile memory coupled to the at least one processing device, the non-volatile memory including internal PSU operating parameter values stored therein for implementing each of the different available PSU operational power modes of the PSU stored therein; where the at least one processing device is configured to retrieve the internal PSU operating parameter values from the non-volatile memory that correspond to the selected first one of the PSU operational power modes; and where the at least one processing device is configured to cause the PSU to supply power to the system load using the retrieved internal PSU operating parameter values that correspond to the first one of the PSU operational power modes. 2. The system of claim 1 , where the at least one processing device is configured to select the first one of the PSU operational power modes from the available PSU operational power modes such that the deliverable power range of the selected PSU operational power mode coincides with the current power policy power level. 3. The system of claim 2 , where two or more of the available non-zero PSU operational power modes are a candidate PSU operational power mode having a deliverable power range that coincides with the current power policy power level; where the operating efficiency of the PSU at the current power policy power level is different for each of the candidate PSU operational power modes; and where the at least one processing device is configured to select a candidate PSU operational power mode having the highest operating efficiency at the current power policy power level to use as the first one of the PSU operational power modes. 4. The system of claim 1 , where the at least one processing device is configured to select a second and different one of the PSU operational power modes from the available power modes in response to a change in the determined current power policy for the system load; and to cause the PSU to use the selected second one of the PSU operational power modes to supply power to the system load. 5. The system of claim 1 , further comprising non-volatile memory coupled to the at least one processing device that includes characteristics of the different available PSU operational power modes of the PSU stored therein; and where the at least one processing device is configured to select the first one of the PSU operational power modes of the at least one PSU based on a comparison between the determined current power policy and the characteristics of the different available PSU operational power modes stored in the non-volatile memory. 6. The system of claim 1 , where the stored internal PSU operating parameter values comprise at least one of number of DC-to-DC phases, switching frequency, number of active unequal phases, Power Factor Correction (PFC) operational states, or a combination thereof; and where the non-volatile memory having the internal PSU operating parameter values stored therein is integrated within the PSU. 7. The system of claim 1 , where the current power policy specifies a current power policy power level for the system load that corresponds to a maximum allowable power-capped total system load that is a maximum possible power-capped total power consumption level of the power-consuming components of the system load that is less than the maximum possible uncapped total power consumption level of the power-consuming components of the system load. 8. The system of claim 1 , where the current power policy specifies a current power policy power level for the system load that corresponds to a maximum potential total system power load that is a total maximum possible uncapped power consumption level of the currently installed power-consuming components of the system load. 9. The system of claim 1 , where the system comprises a blade server system; where the one or more power-consuming components of the system load comprise individual server blades; where the current determined power policy varies according to the number of currently installed server blades, the current power-capped power consumption level of the individual currently installed server blades, or a combination thereof; and where the at least one processing device is configure to: select different PSU operational power modes of the at least one PSU as the determined current power policy for the system load varies according to changes in the number of currently installed server blades, changes in the current power-capped power consumption level of the individual currently installed server blades or a combination thereof, and cause the PSU to supply power to the system load using the different selected PSU operational power modes as the number of currently installed server blades changes, as the current power-capped power consumption level of the individual currently installed server blades changes or a combination thereof. 10. The system of claim 1 , where the PSU coupled to supply power to the system load is overprovisioned to have a maximum power supply capacity that is at least one of: higher than a maximum potential total system power load that is the total maximum power consumption of the system load component/s, higher than the maximum allowable power-capped total system load that is a maximum possible total combined power-capped power consumption level of the system load components, or a combination thereof. 11. The system of claim 1 , where the current power policy specifies a current power policy power level for the system load that corresponds to a maximum potential total system power load that is a total maximum possible uncapped power consumption level of the currently installed power-consuming components of the system load; and where the at least one processing device is further configured to determine the current power policy power level for the system load by performing an in-system characterization to measure the total maximum possible uncapped power consumption level of the currently installed power-consuming components of the system load. 12. The system of claim 1 , where the current power policy specifies a current power policy power level for the system load that corresponds to a maximum allowable power-capped total system load that is a maximum possible power-capped total power consumption level of the power-consuming components of the system load; and where the at least one processing device is further configured to determine the current power policy power level for the system load by receivin