#United States #ITRI #Quantum Computing #SEEQC #Elmsford, NY

SEEQC and ITRI Partnership

SEEQC, a digital quantum computing enterprise focused on innovative chip-based platforms, recently announced a significant partnership with Taiwan's Industrial Technology Research Institute (ITRI). This collaboration aims to establish a cutting-edge manufacturing line specifically designed for the production of SEEQC's proprietary Single Flux Quantum (SFQ) superconducting control chips. The strategic move is expected to enhance the scalability and growth of SEEQC's digital quantum technologies.

The new manufacturing line will be located in Taiwan and is set to create a robust and efficient production environment. During the initial phase, the focus will be on technology transfer and process development, with SEEQC's research and development (R&D) team closely supervising the technical operations. Once the chips are manufactured, they will be transported to SEEQC's headquarters in Elmsford, New York, where they will be integrated with qubits and subjected to rigorous testing in SEEQC's advanced facility.

These superconducting digital control chips are engineered to operate at cryogenic temperatures, working in harmony with qubits to manage critical functions such as timing, readout, multiplexing, and error-correction logic. Their design features ultra-low power consumption, high speed, and minimal latency—capabilities essential for developing scalable and fault-tolerant quantum computers.

Shu-Jen Han, the Chief Technical Officer at SEEQC, commented on the partnership, stating, "Building this capability with a trusted partner creates a diversified manufacturing base for U.S. and global customers, beyond the existing chip fab in our New York headquarters, who need secure access to advanced superconducting electronics." He added that combining ITRI's exceptional engineering skills with SEEQC's proprietary SFQ chip design positions them to deliver reliable and scalable solutions to a worldwide audience, thereby accelerating advancements in superconducting electronics and digital quantum computing.

ITRI's Vice President, Shih-Chieh Chang, emphasized their commitment to enhancing SEEQC's manufacturing capabilities for superconducting chips, noting that the partnership will leverage ITRI's extensive experience in advanced semiconductor processes cultivated over the last three decades. This collaboration is set to standardize a digital quantum architecture that is conducive to large-scale manufacturing and distribution.

In conjunction with SEEQC's existing R&D and chip manufacturing capabilities in the U.S., this partnership provides a pathway for expanding production capacities efficiently. This development is anticipated to lower operational costs and secure a stable supply of critical components for customers, which includes major technology enterprises on a global scale. The additional control-chip production will bolster SEEQC's ongoing initiatives with partners, including industry giants like NVIDIA, the UK's National Quantum Computing Centre (NQCC), and IBM. Their joint efforts are focused on utilizing SEEQC's digital SFQ-based control architecture to explore scalable quantum error correction techniques and hybrid quantum–classical supercomputing. This is particularly relevant in the context of the recently announced Phase B of the DARPA-sponsored Quantum Benchmarking Initiative (QBI).

The announcement of this partnership highlights the mutual dedication of SEEQC and ITRI towards fostering global innovation in advanced chip manufacturing. Moreover, it signifies a concerted effort to develop a resilient and distributed supply chain for emerging quantum and superconducting technologies. As the digital quantum landscape evolves, collaborations such as this will be pivotal in driving forward the future of quantum computing and superconducting applications.

About SEEQC

SEEQC specializes in the design and manufacturing of superconducting digital chips, as well as firmware and software necessary for energy-efficient quantum computing systems. Their proprietary Single Flux Quantum (SFQ) chips are produced at a multi-layer superconductive electronics chip foundry located in Elmsford, New York. This innovative chip-based architecture is designed to boost performance while minimizing quantum resource requirements, complexity, costs, and latency—all boosting the feasibility of quantum computing solutions across various applications.

For further information, media inquiries can be directed to Davis Richardson at Paradox Public Relations.