New Delhi, India, November 24, 2025 – SkyWater Technology and Silicon Quantum Computing (SQC) have announced a groundbreaking partnership to accelerate the commercialization of hybrid quantum-classical processors. This collaboration aims to strengthen domestic quantum manufacturing and bring advanced computing closer to practical use.
The alliance combines SkyWater’s secure semiconductor manufacturing capabilities with SQC’s expertise in quantum processor design. Together, they plan to create a computing stack that blends quantum and classical components seamlessly. This step is vital for making quantum computing more accessible and reliable.
Quantum computing has long promised transformative benefits in areas such as medicine, finance, and climate research. However, building systems that are both scalable and dependable remains a challenge. By merging quantum processors with classical infrastructure, SkyWater and SQC hope to overcome these obstacles and deliver systems capable of solving complex problems faster than traditional computers.
Thomas Sonderman, CEO of SkyWater Technology, highlighted the importance of this partnership. He said the collaboration will help bring the future of computing closer to reality by combining SQC’s precision engineering with SkyWater’s U.S.-based Technology-as-a-Service model. He also stressed that this move aligns with SkyWater’s mission to support innovation while ensuring secure domestic production.
Michelle Simmons, Founder and CEO of Silicon Quantum Computing, expressed similar optimism. She noted that working with SkyWater ensures the integration of atomically engineered quantum processors into a robust and secure supply chain. According to Simmons, this partnership reflects a shared commitment to advancing fault-tolerant, commercial-scale quantum computing.
The joint effort will focus on developing hybrid systems that pair SQC’s quantum processing units with SkyWater’s advanced silicon wafers and superconducting resonators. These components will be manufactured and packaged in SkyWater’s U.S. facilities. This approach ensures compliance with national security standards and reduces dependence on overseas suppliers.
Industry experts view this collaboration as a strategic move to position the United States as a leader in quantum technology. Global competition in this field is intensifying, especially from Europe and Asia. Domestic partnerships like this one are essential for maintaining technological sovereignty and securing future innovation.
Beyond research labs, hybrid quantum-classical systems could transform industries such as healthcare and finance. Pharmaceutical companies could use these systems to speed up drug development by simulating molecular interactions with unmatched precision. Banks could optimize portfolios in real time, improving decision-making and reducing risk.
This partnership also highlights a growing trend in the tech sector: collaboration between specialized quantum firms and established semiconductor manufacturers. Such alliances not only accelerate innovation but also ensure that breakthroughs can be scaled for commercial use. By combining expertise, these companies can move from theory to practical solutions faster than ever before.
Although the timeline for fully operational hybrid systems remains uncertain, both companies are optimistic. Early prototypes are expected within the next few years. These developments could pave the way for broader adoption in enterprise and government sectors, where advanced computing capabilities are increasingly critical.
As quantum computing moves closer to mainstream reality, partnerships like the one between SkyWater and SQC signal a new era of progress. Innovation, security, and collaboration are converging to redefine what is possible in computing. This alliance is more than a business deal, it is a step toward a future where quantum technology becomes an integral part of everyday life.
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