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Preprint – Independent Research (Version 1.0) This paper proposes a mechanically feasible and archaeologically consistent model for the construction of the Great Pyramid of Giza based on a system of multiple counterweighted lifting cranes arranged in vertical lanes along each pyramid face. These small, modular cranes used adjustable sliding solid counterweights, sand or water counterweights, short levered booms, and rope slings to lift stone blocks in 1–3 m stages up a terraced work structure. This approach requires only documented Old Kingdom materials and techniques wood, rope, sledges, counterweights, and incremental lifting yet provides a complete solution to the long-standing challenges of block throughput, precision fitting, limited wood supply, labor organization, and the absence of archaeological evidence for massive ramps. The model aligns with: Archaeological data (workers’ village, granite wear grooves, block characteristics) Historical descriptions (Herodotus’ “machines of short wooden timbers”) Engineering constraints (20-year timeline, rope strength, granite anchoring) Cultural realities (organized corvée labor, chant-timed work, skilled crews) Throughput analysis shows that 24 lifting lanes operating in parallel could place 200–250 blocks/day consistent with the required construction rate. The model produces testable archaeological predictions and restores the human skill and dignity of Old Kingdom laborers without invoking lost technologies or exotic machinery.