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Production Amenities Will Energy Resilient and Powerful U.S.-Allied Provide Chain for Quantum Computing
Elmsford, N.Y., Dec. 1, 2025 /PRNewswire/ — SEEQC, the virtual quantum computing corporate creating a completely virtual, chip-based quantum computing platform, these days introduced a producing partnership with Taiwan’s Commercial Era Analysis Institute (ITRI). In combination, SEEQC and ITRI will form a cutting-edge procedure form devoted to production SEEQC’s proprietary Unmarried Flux Quantum (SFQ) superconducting management chips, additional supporting the expansion and scalability of the corporate’s virtual quantum applied sciences.
Below the partnership, SEEQC will deploy the unused production form to permit a strong and high-yield manufacturing atmosphere. The preliminary section of the mission will focal point on generation switch and procedure construction, with SEEQC’s R&D group offering technical experience all through the develop. The manufactured chips shall be dropped at SEEQC’s headquarters in the USA, the place they’re going to after be built-in with qubits and steady in SEEQC’s state-of-art trying out facility.
Those superconducting virtual management chips perform at cryogenic temperatures along qubits, dealing with timing, readout, multiplexing and error-correction good judgment with ultra-low energy, elevated velocity and occasional latency— crucial features to construction scalable, fault-tolerant quantum computer systems.
“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,” says Shu-Jen Han, Leading Technical Officer at SEEQC. “By combining ITRI’s outstanding engineering capabilities with our proprietary SFQ-based chip design and testing expertise, we are positioned to deliver scalable, reliable solutions to our global customers, accelerating the future of advanced superconducting electronics and digital quantum computing.”
“ITRI is committed to supporting the advancement of SEEQC’s superconducting chip manufacturing technologies,” says Shih-Chieh Chang, Vice President & Basic Director at ITRI. “Partnering with SEEQC enables us to apply our deep experience in advanced semiconductor processes developed in the past 30 years to a digital quantum architecture designed for large-scale manufacturing and deployment.”
Mixed with SEEQC’s in-house R&D and chip production amenities in the USA, this partnership permits the corporate to extend production capability successfully, decreasing operational prices and making sure the valuable provide of crucial elements to consumers, who come with one of the biggest generation corporations international. The expanded control-chip capability will backup SEEQC’s ongoing methods with companions together with NVIDIA, the United Kingdom’s Nationwide Quantum Computing Centre (NQCC), and IBM, the place its virtual SFQ-based management structure is being worn to discover scalable quantum error correction and hybrid quantum–classical supercomputing within the just lately introduced Segment B of the DARPA subsidized Quantum Benchmarking Initiative (QBI).
The announcement underscores SEEQC and ITRI’s shared constancy to advancing world innovation in complicated chip production and construction a resilient, dispensed provide chain for rising quantum and superconducting applied sciences.
About SEEQC
SEEQC designs and manufactures superconducting virtual chips, firmware, and device for scalable, energy-efficient quantum computing programs in response to its proprietary Unmarried Flux Quantum (SFQ) chips produced on the corporate’s multi-layer superconductive electronics chip foundry positioned in Elmsford, NY. This chip-based structure is designed to extend efficiency generation lowering quantum necessities, complexity, price, and latency. SEEQC’s chip-based answer is augmented by means of the corporate’s firmware and device that helps a complete spectrum of packages for third-party builders.
Media Touch
Davis Richardson
Paradox Population Members of the family
[email protected]
SOURCE SEEQC
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