With the foundational wall framework now established, we'll execute precise height adjustments to ensure seamless alignment across all structural elements. Our focus centers on the cantilevered sections—those distinctive overhangs extending beyond the level one perimeter—which require their base constraints repositioned four feet lower to achieve proper proportional balance. This adjustment necessitates corresponding modifications to our ground-level wall configurations to maintain structural integrity throughout the design.

Using Control to build a comprehensive selection set, I've identified all walls requiring this downward adjustment. The transformation involves shifting the base offset from zero to negative four feet—a change that dramatically refines the building's proportional relationships. Next, we'll address the curtain wall assemblies, configuring them to terminate at a consistent unconnected height of 10 feet. This standardization creates visual cohesion while maintaining the functional requirements of our glazing systems.

The process involves navigating between our reference levels—transitioning from level one to level two as our primary working plane. By applying a negative four-foot offset to our selected wall elements, we establish the precise vertical positioning that our design intent demands. This methodology ensures that each wall assembly occupies its optimal position within the overall building envelope.

Implementing a negative four-foot top offset to our selected walls achieves perfect alignment with adjacent structural elements, creating the seamless integration we're targeting. When reviewing our level two plan view, you'll notice how these adjustments resolve the visual conflicts we observed earlier—those instances where wall elements were penetrating through floor plates. With our top and base constraints now properly calibrated, the architectural vision begins to crystallize, revealing the sophisticated interplay between form and function that defines contemporary design excellence.

Substantial development work remains ahead, but this systematic approach—advancing methodically through each critical milestone—ensures we maintain both design integrity and construction feasibility as we progress toward project completion.