How GlobalFoundries Is Manufacturing Quantum at Scale

The race to practical quantum computers has moved beyond laboratory demos to a pressing manufacturing challenge. While algorithms promise breakthroughs in drug discovery, materials design, and finance, the ability to produce thousands of high‑fidelity qubits at volume will decide commercial success. GlobalFoundries, the world’s leading specialty foundry, leverages decades of semiconductor expertise to fill that gap. By treating quantum processors as advanced chips, GF applies its existing process control, yield optimization, and supply‑chain infrastructure, offering a proven pathway to scale what were once low‑volume experiments.

GF’s strategy is deliberately technology‑agnostic. Its 22FDX® FD‑SOI platform delivers low‑power, high‑density transistors ideal for integrating classical control electronics on a quantum die. High‑voltage and RF lines provide the power delivery and microwave signals needed by superconducting and spin‑qubit systems. Meanwhile, 300 mm silicon photonics wafers enable mass‑produced optical interconnects for photonic and trapped‑ion architectures. Advanced heterogeneous integration and packaging combine quantum chips, control ASICs, and photonic waveguides into manufacturable system‑in‑package solutions, letting researchers move from prototype to pilot production without costly re‑qualification.

The downstream impact is profound. A reliable, high‑yield supply chain lowers the cost per logical qubit, making quantum‑accelerated drug screening, real‑time logistics optimization, and quantum‑secure communications economically viable. Companies that tap GF’s foundry services could capture early market share in sectors projected to generate tens of billions of dollars annually by 2035. GF’s modality‑agnostic approach also mitigates the risk of betting on a single qubit technology, allowing the ecosystem to converge on the most performant architecture as it matures. In short, GF is building the manufacturing foundation that could turn quantum computing into a mainstream enterprise tool.