Turbomachine with alternatingly spaced rotor blades

What is claimed is: 1. A method of assembling a compressor or a turbine of a gas turbine engine defining an axial direction, a radial direction, and a circumferential direction, the method comprising: installing a first stage assembly comprising a first ring member and a first stage of rotor blades, the first ring member defining a first end and the first stage of rotor blades defining a second end; installing a second stage assembly comprising a second ring member and a second stage of rotor blades, the second ring member defining a first end and the second stage of rotor blades defining a second end, wherein installing the second stage assembly comprises fitting the first end of the second ring member to the second end of the first stage of rotor blades to form a first attachment interface; and pressing the second stage assembly against the first stage assembly to fix the first attachment interface. 2. The method of claim 1 , wherein pressing the second stage assembly against the first stage assembly comprises clamping the second stage assembly against the first stage assembly using a rotating outer drum assembly extending from at least the first stage assembly to at least the second stage assembly. 3. The method of claim 1 , wherein the first ring member further defines a second end, wherein the first stage of rotor blades comprises a plurality of segments of one or more first stage rotor blades, wherein each segment of one or more first stage rotor blades comprises an outer platform extending between a first end and a second end generally along the axial direction, and wherein installing the first stage assembly comprises fitting the first end of the outer platform of each segment of one or more first stage rotor blades with the second end of the first ring member to form a stage assembly attachment interface. 4. The method of claim 3 , wherein the first ring member defines a first span along the circumferential direction, wherein the outer platform of each segment of one or more first stage rotor blades defines a second span along the circumferential direction, and wherein the first span is greater than the second span. 5. The method of claim 3 , wherein the segment of one or more first stage rotor blades is a segment of at least two rotor blades and up to fifteen rotor blades. 6. The method of claim 3 , wherein fitting the first end of the outer platform of each segment of one or more first stage rotor blades with the second end of the first ring member comprises installing the plurality of segments of one or more first stage rotor blades sequentially. 7. The method of claim 3 , wherein the second ring member further defines a second end, wherein the second stage of rotor blades comprises a plurality of segments of one or more second stage rotor blades, wherein each segment of one or more second stage rotor blades comprises an outer platform extending between a first end and a second end generally along the axial direction, and wherein installing the second stage assembly comprises fitting the first end of the outer platform of each segment of one or more second stage rotor blades with the second end of the second ring member to form a second stage assembly attachment interface. 8. The method of claim 1 , wherein the attachment interface is configured as a tongue and groove attachment interface. 9. The method of claim 1 , wherein the first stage of rotor blades is a first stage of first speed rotor blades, wherein the second stage of rotor blades is a second stage of first speed rotor blades, wherein the gas turbine engine further comprises a first stage of second speed rotor blades and a second stage of second speed rotor blades, wherein the first ring member is positioned outward of the first stage of second speed rotor blades along the radial direction, and wherein the second ring member is positioned outward of the second stage of second speed rotor blades along the radial direction. 10. The method of claim 1 , wherein the first stage of rotor blades is a first stage of first speed rotor blades, wherein the gas turbine engine further comprises a first stage of second speed rotor blades, wherein the first stage of first speed rotor blades is configured to rotate in a first circumferential direction, and wherein the first stage of second speed rotor blades is configured to rotate in a second circumferential direction opposite the first circumferential direction. 11. A gas turbine engine defining an axial direction, a radial direction, and a circumferential direction, the gas turbine engine comprising: a compressor and a turbine; and a rotor blade assembly positioned in the compressor or the turbine, the rotor blade assembly comprising a first stage assembly comprising a first ring member and a first stage of rotor blades, the first ring member defining a first end and the first stage of rotor blades defining a second end; a second stage assembly comprising a second ring member and a second stage of rotor blades, the second ring member defining a first end and the second stage of rotor blades defining a second end, the second end of the first stage of rotor blades and the first end of the second ring member together forming an attachment interface; and a drum member positioned outward of the first and second stage assemblies along the radial direction and clamping the first stage assembly against the second stage assembly. 12. The gas turbine engine of claim 11 , wherein the first ring member further defines a second end, wherein the first stage of rotor blades comprises a plurality of segments of one or more first stage rotor blades, wherein each segment of one or more rotor blades comprises an outer platform extending between a first end and a second end generally along the axial direction, and wherein the first end of the outer platform of each segment of one or more rotor blades forms a stage assembly attachment interface with the second end of the first ring member. 13. The gas turbine engine of claim 12 , wherein the second end of the first stage assembly is formed of the second ends of the outer platforms of the plurality of segments of one or more first stage rotor blades. 14. The gas turbine engine of claim 12 , wherein the first ring member extends completely along the circumferential direction. 15. The gas turbine engine of claim 12 , wherein each segment of one or more rotor blades comprises at least 2 rotor blades and up to 15 rotor blades. 16. The gas turbine engine of claim 12 , wherein the stage assembly attachment interface is configured as a tongue and groove attachment interface. 17. The gas turbine engine of claim 12 , wherein the second ring member further defines a second end, wherein the second stage of rotor blades comprises a plurality of segments of one or more second stage rotor blades, wherein each segment of one or more second stage rotor blades comprises an outer platform extending between a first end and a second end generally along the axial direction, and wherein the first end of the outer platform of each segment of one or more second stage rotor blades forms a stage assembly attachment interface with the second end of the second ring member. 18. The gas turbine engine of claim 11 , wherein the first stage of rotor blades is a first stage of first speed rotor blades, wherein the second stage of rotor blades is a second stage of first speed rotor blades, wherein the gas turbine engine further comprises a first stage of second speed rotor blades and a second stage of second speed rotor blades, wherein the first ring member is po