Power delivery to rack-mounted field replaceable units using AC and/or DC input power sources

I claim: 1. A system for delivering direct current (DC) power to field replaceable units (FRUs) of a computing rack, comprising: a rectifier comprising: a plurality of input nodes for receiving a respective plurality of mains power supplies; and at least one output node for outputting a DC power supply; and an electrical bypass mechanism comprising: an input node electrically interconnected to the output node of the rectifier; a first output node; a second output node; a first conductive path electrically connecting the input node and the first output node; and a second conductive path electrically interconnectable between a) the first input node of the electrical bypass mechanism or the first conductive path, and b) the second output node, wherein the first and second output nodes are configured to output respective DC voltages irrespective of whether the system receives one or more mains power sources and/or one or more DC input power sources, wherein the second conductive path comprises a removable jumper. 2. The system of claim 1 , further comprising: a first power distribution unit (PDU) electrically interconnected to the first output node; and a second PDU electrically interconnected to the second output node, wherein each of the first and second PDUs is configured to deliver DC power to a plurality of FRUs received within the computing rack. 3. A system for delivering direct current (DC) power to field replaceable units (FRUs) of a computing rack, comprising: a rectifier comprising: a plurality of input nodes for receiving a respective plurality of mains power supplies; and at least one output node for outputting a DC power supply; and an electrical bypass mechanism comprising: an input node electrically interconnected to the output node of the rectifier; a first output node; a second output node; a first conductive path electrically connecting the input node and the first output node; and a second conductive path electrically interconnectable between a) the first input node of the electrical bypass mechanism or the first conductive path, and b) the second output node, wherein the first and second output nodes are configured to output respective DC voltages irrespective of whether the system receives one or more mains power sources and/or one or more DC input power sources; and a switch disposed along the second conductive path, wherein actuation of the switch selectively allows and disallows current flow along the second conductive path. 4. The system of claim 3 , further comprising: a first power distribution unit (PDU) electrically interconnected to the first output node; and a second PDU electrically interconnected to the second output node, wherein each of the first and second PDUs is configured to deliver DC power to a plurality of FRUs received within the computing rack. 5. A method for supplying DC power to FRUs mounted within a computing rack, comprising: electrically interconnecting the first PDU of the system of claim 4 to a first port of each of the FRUs; and electrically interconnecting the second PDU of the system of claim 4 to a second port of each of the FRUs. 6. The method of claim 5 , further comprising: electrically interconnecting a plurality of mains power sources to the respective plurality of input nodes of the rectifier. 7. The method of claim 5 , further comprising: electrically interconnecting a first DC input power source to one of the first conductive path or the first output node of the bypass mechanism; and electrically interconnecting a second DC input power source to one of the second conductive path or the second output node of the bypass mechanism. 8. The system of claim 3 , wherein the second conductive path comprises a removable jumper. 9. A method for supplying direct current (DC) power to field replaceable units (FRUs) mounted within a computing rack, comprising: providing a system for delivering DC power to FRUs of a computing rack, comprising: a rectifier comprising: a plurality of input nodes for receiving a respective plurality of mains power supplies; and at least one output node for outputting a DC power supply; and an electrical bypass mechanism comprising: an input node electrically interconnected to the output node of the rectifier; a first output node; a second output node; a first conductive path electrically connecting the input node and the first output node; and a second conductive path electrically interconnectable between a) the first input node of the electrical bypass mechanism or the first conductive path, and b) the second output node, wherein the first and second output nodes are configured to output respective DC voltages irrespective of whether the system receives one or more mains power sources and/or one or more DC input power sources; a first power distribution unit (PDU) electrically interconnected to the first output node; and a second PDU electrically interconnected to the second output node, wherein each of the first and second PDUs is configured to deliver DC power to a plurality of FRUs received within the computing rack; electrically interconnecting the first PDU to a first port of each of the FRUs; electrically interconnecting the second PDU to a second port of each of the FRUs; electrically interconnecting a plurality of mains power sources to the respective plurality of input nodes of the rectifier; interrupting current flow between the first and second conductive paths; and electrically interconnecting a DC input power source to the second output node or the second conductive path of the bypass mechanism. 10. The method of claim 9 , wherein the interrupting comprises: removing a conductor from the second conductive path of the bypass mechanism. 11. The method of claim 9 , wherein the interrupting comprises: manipulating a switch disposed along the second conductive path.