Thermalization of microwave attenuators for quantum computing signal lines

What is claimed is: 1. A device, comprising: a cryogenic microwave attenuator device, the cryogenic microwave attenuator device comprising a housing component outside of and affixed to a microwave attenuator chip that is distinct from the cryogenic microwave attenuator device, the housing component having thermal conductivity of about at least 0.1 Watts per meter-Kelvin at 1 degree Kelvin, wherein the thermal conductivity is selected to facilitate functionality of a quantum processor; and a microwave connector, the microwave connector comprising a signal conductor that is direct wire coupled to the microwave attenuator chip, wherein the microwave connector is directly connected to a coax coupling portion disposed to directly connect to the housing component via the coax coupling portion adapted to directly slide on to the structure of the housing component, and wherein the signal conductor is directly connected to and provided via the coax coupling portion. 2. The device of claim 1 , wherein the housing component comprises a copper alloy housing material. 3. The device of claim 2 , wherein the housing component is plated with an oxidation-resistant material. 4. The device of claim 3 , wherein the oxidation-resistant material comprises gold. 5. The device of claim 1 , wherein the housing component comprises a substantially oxygen-free, high-conductivity copper material having thermal conductivity of about at least 0.1 Watts per meter-Kelvin at 1 degree Kelvin. 6. The device of claim 1 , wherein the housing component comprises an electrolytic copper material. 7. The device of claim 1 , wherein the signal conductor comprises a connector center pin that is direct wire coupled to the microwave attenuator chip via one or more gold wires. 8. The device of claim 1 , wherein the cryogenic microwave attenuator device is to be used in conjunction with a dilution refrigerator plate at a temperature above a superconducting critical temperature of aluminum metal, and wherein the signal conductor comprises a connector center pin that is direct wire coupled to the microwave attenuator chip via one or more aluminum wires. 9. The device of claim 1 , wherein the microwave connector comprises a first microwave connector coupled to an input signal side of the microwave attenuator chip, and further comprising a second microwave connector coupled to an output signal side of the microwave attenuator chip, and wherein the first microwave connector is a same gender as the second microwave connector. 10. The device of claim 1 , wherein the microwave connector comprises a first female microwave connector coupled to an input signal side of the microwave attenuator chip, and further comprising a second female microwave connector coupled to an output signal side of the microwave attenuator chip, wherein the first female microwave connector and the second female microwave connector are designed to be same gender to reduce signal reflections. 11. The device of claim 1 , wherein the microwave attenuator chip comprises a plated substrate that is affixed to the housing component via fastening material having a fastening material thermal conductivity of about at least 1 Watts per meter-Kelvin at 1 degree Kelvin. 12. The device of claim 11 , wherein the fastening material comprises silver epoxy. 13. A device, comprising: a housing component that contains a microwave signal attenuator chip, the housing component comprising a metal having a thermal conductivity of about at least 1 Watts per meter-Kelvin at 1 degree Kelvin, wherein the thermal conductivity is selected to facilitate functionality of a quantum processor; a first subassembly that is mechanically coupled to the housing component, the first subassembly comprising a first microwave connector having a first microwave signal conductor electrically coupled to an input side of the microwave signal attenuator chip, wherein the microwave signal attenuator chip is outside of the housing component, wherein the first microwave connector is directly connected to a coax coupling portion disposed to directly connect to the housing component via the coax coupling portion adapted to directly attach to the housing component, and wherein the first microwave signal conductor is directly connected to and provided via the coax coupling portion; and a second subassembly that is mechanically coupled to the housing component, the second subassembly comprising a second microwave connector having a second microwave signal conductor electrically coupled to an output side of the microwave signal attenuator chip. 14. The device of claim 13 , wherein the housing component comprises a copper alloy housing component plated with an oxidation-resistant material. 15. The device of claim 13 , wherein the first microwave signal conductor comprises a connector center pin that is direct wire coupled to the input side of the microwave signal attenuator chip via one or more wires. 16. The device of claim 13 , wherein the first microwave connector comprises a female gender microwave connector and the second microwave connector comprises another female gender microwave connector. 17. The device of claim 13 , wherein the housing component is coupled to a plated substrate of the microwave signal attenuator chip via a fastening material having a fastening material thermal conductivity of about at least 0.1 Watts per meter-Kelvin at 1 degree Kelvin. 18. The device of claim 13 , wherein the housing component comprises a lower housing portion to which the microwave signal attenuator chip is attached, and a upper housing portion that fastens to the lower housing portion to contain the microwave signal attenuator chip. 19. A device, comprising: an input microwave connector component comprising an input signal conductor, the input signal conductor electrically coupled to an input of a microwave signal attenuator chip; an output microwave connector component comprising an output signal conductor, the output signal conductor electrically coupled to an output of the microwave signal attenuator chip; and a housing component, the housing component having a first thermal conductivity of about at least 0.1 Watts per meter-Kelvin at 1 degree Kelvin, the housing component affixed to the microwave signal attenuator chip with a fastening material having a second thermal conductivity of about at least 0.1 Watts per meter-Kelvin at 1 degree Kelvin, and the housing component directly mechanically connected to the input microwave connector component via a coax coupling portion formed to be received in a recess of the housing component, and to the output microwave connector component, wherein the first thermal conductivity are the second thermal conductivity are selected to facilitate functionality of a quantum processor. 20. The device of claim 19 , wherein the input microwave connector component, the output microwave connector component and the housing component are plated with an oxidation resistant material. 21. The device of claim 19 , wherein the housing component comprises a copper alloy. 22. A cryogenic microwave attenuator device, comprising: a housing component having a thermal conductivity of about at least 0.1 Watts per meter-Kelvin at 1 degree Kelvin, the housing component coupled to dissipate thermal energy of a microwave signal attenuator chip contained within the housing component, wherein the thermal conductivity is selected to facilitate functionality of a quantum processor; an input microwave connector compon