STMicroelectronics teams up with Qualcomm to transform wireless IoT development

In a notable collaboration, Quobly, a pioneer in semiconductor qubits, has teamed up with STMicroelectronics to enhance the manufacturing of quantum processors. This partnership will utilize ST's advanced 28nm FD-SOI semiconductor manufacturing processes, aiming for cost-effective, large-scale quantum computing solutions. The two companies plan to have a first generation of commercial products available by 2027, focusing on key applicative markets such as pharmaceuticals, finance, materials science, and complex systems modeling, including climate and fluid dynamics simulations. Also, by leveraging ST's historical expertise in production, Quobly seeks to streamline the development of its fault-tolerant quantum computer technology and improve scalability. STMicroelectronics will adapt its manufacturing processes specifically to meet Quobly’s needs. The collaboration aims to target a 100 Qubit Quantum Machine and to provide proof of scalability beyond 100k physical qubits. This strategic move not only enhances the joint capacity for research and development but also addresses an increasing market demand for affordable quantum computing solutions. According to industry experts, this collaboration could represent a significant step in achieving more scalable quantum computing processors, leveraging existing semiconductor technologies to foster innovation. Quobly's ambitious goal includes breaking through the 1-million-qubit barrier by 2031. This aspiration demonstrates the company’s commitment to leading advancements in next-generation computing technologies. The partnership is expected to combine Quobly's expertise in developing fault-tolerant technology with STMicroelectronics’ manufacturing capabilities, creating a potent synergy that could redefine quantum computing’s accessibility and affordability. Eric Mounier, PhD Chief Analyst at Yole Group, emphasizes the need for quantum computers to efficiently address size, weight, power, and cost considerations to be viable in the commercial market. Sustainability is also pivotal in this collaboration, aligning with STMicroelectronics’ goal to achieve carbon neutrality by 2027. The focus on developing fault-tolerant, scalable quantum processors could have far-reaching implications across various industries, allowing organizations to engage in complex systems modeling that influence important areas such as climate change research and pharmaceuticals. In light of these developments, the collaboration marks a significant milestone as both organizations strive to maintain a leading position in the rapidly evolving field of quantum computing.