Compressor rotor stack assembly for gas turbine engine

What is claimed is: 1. A gas turbine engine comprising: a compressor section; a combustion section; a turbine section; and a rotor disk assembly of the compressor section comprising: a plurality of rotor disks not bolted together, each extending radially from an inner end to an outer end; a spacer extending axially from each rotor disk to engage an adjacent spacer extending from an adjacent rotor disk, the spacer and adjacent spacer disposed proximate the outer end of a respective rotor disk, the spacers forming an outer backbone of the compressor rotor assembly; an inner backbone of the compressor rotor assembly, the inner backbone comprising a plurality of backbone segments being axially aligned with one another and engaged with one another to define the inner backbone, each of the backbone segments extending axially from each rotor disk to engage an adjacent backbone segment extending from an adjacent rotor disk, each backbone segment of the plurality of backbone segments being disposed proximate the inner end of the respective rotor disk; and a tie shaft extending axially proximate the inner end of the plurality of rotor disks to axially compress the plurality of rotor disks together. 2. The gas turbine engine of claim 1 , wherein the plurality of rotor disks are part of a high pressure compressor assembly. 3. The gas turbine engine of claim 1 , the tie shaft threaded to a compressor structure proximate a last stage of the plurality of rotor disks. 4. The gas turbine engine of claim 1 , wherein the inner backbone defines a substantially cylindrical member. 5. A method of assembling a compressor rotor assembly comprising: arranging a plurality of rotor disks not bolted together in an axially spaced manner relative to each other; engaging a spacer extending from each rotor disk with an adjacent spacer extending from an adjacent rotor disk, the spacers disposed proximate a radially outer end of the rotor disks; engaging a backbone segment extending from each rotor disk with an adjacent backbone segment extending from an adjacent rotor disk to form an inner backbone, the backbone segments disposed proximate a radially inner end of the rotor disks, the backbone segments being axially aligned with one another and engaged with one another; and axially compressing the spacers and the inner backbone with a tie shaft with a positive torque applied thereto. 6. The method of claim 5 , wherein the tie shaft is threaded to a compressor structure proximate a last stage of the plurality of rotor disks. 7. The method of claim 5 , wherein the inner backbone defines a substantially cylindrical member. 8. The method of claim 5 , wherein the plurality of rotor disks are part of a high pressure compressor assembly.