Load path geometry for vehicle structure

What is claimed is: 1. A structural arrangement for a vehicle, comprising: a vehicle frame including a vehicle frame rail and a center tunnel defining a vehicle body axis; a bulkhead arranged transverse to the vehicle body axis, the bulkhead coupled to the center tunnel; a shock tower spaced apart from the bulkhead and fixed to the vehicle frame rail; a first structural member extending from the bulkhead to the shock tower and fixed to each of the bulkhead and the shock tower, the first structural member extending along a first plane defining a first level; a second structural member extending from the bulkhead to the shock tower and fixed to each of the bulkhead and the shock tower, the second structural member extending along a second plane separate from the first plane and defining a second level lower than the first level; and a third structural member extending from the center tunnel to the vehicle frame rail and fixed to each of the center tunnel and the vehicle frame rail, the third structural member extending along a third plane separate from the first and second planes and defining a third level lower than the first and second levels; wherein the first structural member defines a first load path between the center tunnel and the shock tower, the second structural member defines a second load path between the center tunnel and the shock tower, and the third structural member defines a third load path between the center tunnel and the vehicle frame rail. 2. The structural arrangement for the vehicle of claim 1 , wherein the vehicle frame rail includes a first frame rail and a second frame rail spaced apart from and parallel to the first frame rail and each of the first and second frame rails extend parallel to the vehicle body axis. 3. The structural arrangement for the vehicle of claim 2 , wherein the shock tower includes a first shock tower and a second shock tower, and the first shock tower is spaced apart from the bulkhead and fixed to the first frame rail and the second shock tower is spaced apart from the bulkhead and fixed to the second frame rail. 4. The structural arrangement for the vehicle of claim 3 , wherein the first structural member includes a first upper structural member extending from the bulkhead to the first shock tower and fixed to each of the bulkhead and the first shock tower and a second upper structural member extending from the bulkhead to the second shock tower and fixed to each of the bulkhead and the second shock tower. 5. The structural arrangement for the vehicle of claim 3 , wherein the second structural member includes a first middle structural member extending from the bulkhead to the first shock tower and fixed to each of the bulkhead and the first shock tower and a second middle structural member extending from the bulkhead to the second shock tower and fixed to each of the bulkhead and the second shock tower. 6. The structural arrangement for the vehicle of claim 3 , wherein the third structural member includes a first lower structural member extending from the center tunnel to the first frame rail and fixed to each of the center tunnel and the first frame rail and a second lower structural member extending from the center tunnel to the second frame rail and fixed to each of the center tunnel and the second frame rail. 7. The structural arrangement for the vehicle of claim 1 , wherein the center tunnel is a closed section center tunnel. 8. The structural arrangement for the vehicle of claim 1 , wherein each of the first, second, and third structural members is an extruded tubular member. 9. The structural arrangement for the vehicle of claim 1 , wherein the shock tower is a high-integrity aluminum die-casting. 10. An automotive vehicle, comprising: a vehicle body structure having a vehicle body axis, a center tunnel, a bulkhead coupled to the center tunnel, and a vehicle frame rail coupled to the center tunnel, the center tunnel and the vehicle frame rail arranged along the vehicle body axis; a first cross-vehicle member and a second cross-vehicle member arranged orthogonally relative to the vehicle body axis and the center tunnel, each of the first and second cross-vehicle members coupled to the bulkhead; a shock tower spaced apart from the first and second cross-vehicle members and coupled to the vehicle frame rail; and a load transfer system including: a first structural member extending from the first cross-vehicle member to the shock tower and fixed to each of the first cross-vehicle member and the shock tower, the first structural member extending along a first plane defining a first level; a second structural member extending from the second cross-vehicle member to the shock tower and fixed to each of the second cross-vehicle member and the shock tower, the second structural member extending along a second plane separate from the first plane and defining a second level lower than the first level; and a third structural member extending from the center tunnel to the vehicle frame rail and fixed to each of the center tunnel and the vehicle frame rail, the third structural member extending along a third plane separate from the first and second planes and defining a third level lower than the first and second levels. 11. The automotive vehicle of claim 10 , wherein the first structural member defines a first load path between the center tunnel and the shock tower, the second structural member defines a second load path between the center tunnel and the shock tower, and the third structural member defines a third load path between the center tunnel and the vehicle frame rail. 12. The automotive vehicle of claim 10 , wherein the vehicle frame rail includes a first frame rail and a second frame rail spaced apart from and parallel to the first frame rail and each of the first and second frame rails extend parallel to the vehicle body axis. 13. The automotive vehicle of claim 12 , wherein the shock tower includes a first shock tower and a second shock tower, and the first shock tower is spaced apart from the bulkhead and fixed to the first frame rail and the second shock tower is spaced apart from the bulkhead and fixed to the second frame rail. 14. The automotive vehicle of claim 13 , wherein the first structural member includes a first upper structural member extending from the first cross-vehicle member to the first shock tower and fixed to each of the first cross-vehicle member and the first shock tower and a second upper structural member extending from the first cross-vehicle member to the second shock tower and fixed to each of the first cross-vehicle member and the second shock tower. 15. The automotive vehicle of claim 14 , wherein the second structural member includes a first middle structural member extending from the second cross-vehicle member to the first shock tower and fixed to each of the second cross-vehicle member and the first shock tower and a second middle structural member extending from the second cross-vehicle member to the second shock tower and fixed to each of the second cross-vehicle member and the second shock tower. 16. The automotive vehicle of claim 15 , wherein the third structural member includes a first lower structural member extending from the center tunnel to the first frame rail and fixed to each of the center tunnel and the first frame rail and a second lower structural member extending from the center tunnel to the second frame rail and fixed to each of the center tunnel and the second frame rail. 17. The automotive vehicle of claim 15 , wherein the first middle structural member and the seco