- SEALSQ (LAES, Financial), ColibriTD, and Xdigit to develop a quantum computing solution to improve semiconductor wafer yields at sub-7nm nodes.
- The solution targets increasing wafer yields from 50% to 80%, potentially reducing per-chip costs by nearly half.
- Commercial deployment is aimed for 2026, with a proof-of-concept demonstration following a six-month development period.
SEALSQ (NASDAQ: LAES), in partnership with ColibriTD and Xdigit, has announced a cutting-edge plan to enhance semiconductor wafer yields using quantum computing technologies. This pioneering solution is designed to address the IR Drop issues commonly faced in sub-7nm nodes, promising to boost wafer yields from the current 50% to as much as 80%, a significant improvement that could lead to substantial cost savings per chip.
The initiative features a detailed six-month development roadmap focusing on leveraging quantum computing’s capabilities to tackle the intricate Partial Differential Equations that arise in advanced semiconductor designs. By employing sophisticated mathematical modeling, this effort aims to provide unprecedented precision in power distribution modeling, addressing the critical challenges of IR Drop in the smallest node manufacturing processes.
SEALSQ's partnership with ColibriTD, a pioneer in Quantum-as-a-Service platforms, and Xdigit, a specialist in semiconductor design, is poised to transform the landscape of semiconductor manufacturing, particularly as the industry advances toward 3nm nodes and beyond. The new solution is expected to be commercially available by 2026, aligning with industry adoption cycles for next-generation manufacturing technologies.
Further enhancing the technology's appeal is its potential to bolster security for quantum-resistant microcontrollers. By mitigating IR Drop with precision, the solution reduces vulnerabilities to side-channel attacks, thereby reinforcing the security of advanced microcontrollers used in crucial fields such as AI, automotive, and IoT applications.
The SEALSQ Quantum Lab, which spearheads this initiative, is committed to integrating quantum-safe technologies into real-world applications. This collaboration further cements SEALSQ's position at the forefront of semiconductor and cybersecurity innovation, as it continues to develop robust, future-proof solutions for the rapidly evolving technology landscape.
