SEALSQ, ColibriTD, and Xdigit Announce Plan to Develop a Breakthrough Quantum Computing Based Solution Set to Revolutionize Semiconductor Wafer Yields for Sub-7nm Nodes

Rhea-AI Summary

SEALSQ (NASDAQ: LAES), ColibriTD, and Xdigit have announced a collaborative plan to develop a quantum computing solution aimed at revolutionizing semiconductor wafer yields for sub-7nm nodes. The six-month development roadmap focuses on addressing IR Drop issues in advanced semiconductor designs by combining quantum computing capabilities with sophisticated mathematical modeling. The solution promises to improve wafer yields from 50% to 80%, potentially reducing per-chip costs by half. This breakthrough addresses critical challenges in semiconductor manufacturing at ultra-small geometries where traditional methods fall short. The collaboration leverages SEALSQ's quantum expertise, ColibriTD's Quantum-as-a-Service platform, and Xdigit's semiconductor design specialization. The initiative, part of SEALSQ Quantum Lab, targets commercial deployment by 2026 and includes enhanced security features for quantum-resistant microcontrollers.

Positive

• Potential improvement in wafer yields from 50% to 80%, potentially cutting per-chip costs by half
• Solution addresses critical IR Drop issues at sub-7nm nodes where traditional methods are inadequate
• Enhanced security features provide better resistance to side-channel attacks
• Technology is scalable for future nodes (3nm and beyond)
• Commercial deployment targeted for 2026 with proof-of-concept coming after 6-month development

Negative

• Six-month development period before proof-of-concept demonstration
• Current yield losses at 7nm and below exceed 50% due to technical challenges
• Commercial deployment not expected until 2026
• Success depends on maturation of quantum computing capabilities

Insights

Semiconductor Industry Analyst

SEALSQ partnership targets revolutionary quantum solution for semiconductor yield improvement at sub-7nm nodes, potentially halving costs through 30% yield increases.

This partnership between SEALSQ, ColibriTD, and Xdigit represents a significant technological advancement in semiconductor manufacturing. The collaboration aims to solve one of the most pressing challenges in sub-7nm fabrication: IR Drop, which occurs when voltage decreases across power distribution networks.

At nodes below 7nm, yield losses often exceed 50% due to increased wire resistance and quantum tunneling effects. Traditional IR Drop mitigation techniques simply don't scale effectively at these dimensions. The proposed quantum computing approach could be transformative because it can solve the complex Partial Differential Equations that model power distribution with unprecedented precision.

The economics here are compelling. Improving yields from 50% to 80% on a wafer could reduce per-chip costs by nearly half. For context, at advanced nodes, a single wafer can cost upwards of $15,000 to process, with hundreds of potential chips per wafer. The financial implications for manufacturers are substantial.

What makes this approach particularly noteworthy is its potential scalability to even smaller nodes. As the industry pushes toward 3nm and beyond, traditional computational approaches increasingly fall short. Quantum computing's ability to handle exponentially complex calculations positions this solution as potentially future-proof.

The six-month development roadmap signals appropriate urgency without overpromising immediate results. If successful, the 2026 commercial deployment timeline aligns well with industry adoption cycles for next-generation manufacturing techniques. This positions SEALSQ at the intersection of quantum computing and semiconductor manufacturing—two critical technology domains with substantial growth trajectories.

Geneva, Switzerland, June 23, 2025 (GLOBE NEWSWIRE) --

By addressing IR Drop at sub-7nm nodes, the solution can significantly boost wafer yields, potentially saving manufacturers millions in production costs; improving yield from 50% to 80% on a single wafer could cut per-chip costs by nearly half.

SEALSQ Corp (NASDAQ: LAES) ("SEALSQ" or "Company"), a company that focuses on developing and selling Semiconductors, PKI, and Post-Quantum technology hardware and software products, together with ColibriTD, a pioneer in Quantum-as-a-Service (QaaS) platforms, and Xdigit, a specialized semiconductor design company with expertise in secure microcontrollers and IR Drop (voltage drop across power distribution networks) mathematical modeling, today announced a plan to develop a breakthrough solution set to revolutionize semiconductor wafer yields for sub-7nm nodes, a pivotal milestone in their collaboration within the SEALSQ Quantum Lab.

The partners have agreed on a six-month detailed roadmap to build the foundations of a groundbreaking innovation for the semiconductor industry. The solution aims to significantly improve wafer yield for advanced semiconductor designs at nodes below 7nm by addressing IR Drop issues. It features an advanced mathematical modeling of IR Drop and leverages quantum computing’s unparalleled ability to solve the resulting complex Partial Differential Equations (PDEs).

The development of such advanced solution addresses the semiconductor industry’s urgent need for innovation as traditional methods falter at smaller nodes, and it parallels aggressive advancements in quantum computing, such as IBM’s plan to build a fault-tolerant quantum computer by 2029. IBM’s milestones, including the development of the Quantum Loon chip in 2025 to test advanced quantum error correction architectures, underscore the rapid maturation of quantum capabilities that make solutions like those from SEALSQ, ColibriTD, and Xdigit both feasible and timely.

Tackling the Sub-7nm Challenge
As the semiconductor industry drives toward sub-7nm nodes, critical for next-generation AI, automotive, and IoT applications, IR Drop has emerged as a significant bottleneck. Traditional methods to control IR Drop, while effective for larger nodes, are increasingly inadequate for these ultra-small geometries. At 7nm and below, yield losses can exceed 50%, due to increased wire resistance and quantum effects like tunneling, dramatically increasing chip development costs and delaying time-to-market.

The collaborative quantum-based approach from SEALSQ, ColibriTD, and Xdigit harnesses the computational power of quantum algorithms to model and optimize power distribution networks with unprecedented precision. Xdigit’s expertise in IR Drop mathematical modeling enhances the accuracy of PDE solutions, enabling chip designers to predict and mitigate voltage fluctuations effectively. By solving PDEs that govern IR Drop dynamics, the solution ensures robust performance and higher production yields, allowing SEALSQ and Xdigit to deliver chips at sub-7nm nodes with yields far surpassing industry norms, reducing costs and accelerating innovation.

Strategic Benefits for the Semiconductor Industry
The implications of this technology are transformative:

• Higher Yields, Lower Costs: By addressing IR Drop at sub-7nm nodes, the solution can significantly boost wafer yields, potentially saving manufacturers millions in production costs. For example, improving yield from 50% to 80% on a single wafer could cut per-chip costs by nearly half, making advanced chips more accessible for AI, automotive, and consumer electronics.
• Accelerated Development Cycles: Optimized designs reduce the need for costly iterations, enabling faster time-to-market for next-generation technologies.
• Scalability for Future Nodes: The quantum-driven approach, bolstered by Xdigit’s modeling expertise, is adaptable to even smaller nodes (e.g., 3nm and beyond), future-proofing semiconductor manufacturing as Moore’s Law continues to evolve.
  
  

Enhanced Security for Quantum-Resistant Microcontrollers
A critical benefit of improved IR Drop control is enhanced resistance to side-channel attacks, a growing concern for secure microcontrollers used in IoT, automotive, and defense applications. Precise power distribution minimizes unintended electromagnetic emissions and power fluctuations that attackers exploit to extract cryptographic keys. SEALSQ’s expertise in post-quantum cryptography, exemplified by its QS7001 platform, combined with this new solution enables the development of microcontrollers that are both quantum-resistant and exceptionally robust against physical attacks, reinforcing SEALSQ’s leadership in cybersecurity.

A Quantum Leap Forward
“This collaboration with ColibriTD and Xdigit marks a turning point for the semiconductor industry,” said Carlos Moreira, CEO of SEALSQ. “By leveraging quantum computing and Xdigit’s advanced IR Drop modeling to solve challenges at 7nm and below, we’re addressing a critical barrier to advanced manufacturing and paving the way for more secure, cost-effective chips. Xdigit’s expertise strengthens our ability to deliver high-yield, high-security solutions for AI, automotive, and IoT applications.”

“Quantum computing opens the door to an unprecedented level of modeling and simulation,” said Fabrice Siracusa, CEO of Xdigit. “It enables us to accelerate and optimize design phases, delivering first-time-right circuits and significantly improving yields, especially for technologies at 7nm and below. By combining our expertise in ASIC design and secure IPs with the power of quantum algorithms, we are shaping a new era in semiconductor innovation.”

Looking Ahead
The SEALSQ Quantum Lab, launched in December 2024, is at the forefront of integrating quantum-safe technologies into real-world applications. The collaboration with ColibriTD and Xdigit builds on SEALSQ’s plan on investing up to $20 million in quantum startups and establishment of several partnerships, including Hedera and its parent company WISeKey International Holdings (Nasdaq: WKEY), to secure blockchain and IoT ecosystems. Following the six-month development period, the demonstration will showcase a proof-of-concept that could reshape semiconductor manufacturing, with commercial deployment targeted for 2026.

For more information on SEALSQ’s quantum-resistant solutions and the SEALSQ Quantum Lab, visit https://www.sealsq.com/quantum-lab

About ColibriTD
ColibriTD is a quantum computing innovator specializing in Quantum-as-a-Service platforms. Its technology bridges noisy intermediate-scale quantum (NISQ) systems and future fault-tolerant quantum computers, enabling industries to solve complex problems in aerospace, energy, and beyond.

About Xdigit
Xdigit is a specialized semiconductor design company delivering silicon-proven analog and mixed-signal IPs, including high-resolution ADCs, and custom ASIC solutions for secure and mission-critical applications. With expertise in advanced IR Drop mathematical modeling, Xdigit addresses power integrity challenges through collaborative validation with industry partners, ensuring robust solutions without overstatement. Through its participation in the SEALSQ Quantum Lab with SEALSQ and ColibriTD, Xdigit is validating quantum-enhanced IR Drop solutions targeting silicon-proven results for sub-7nm nodes.

About SEALSQ:
SEALSQ is a leading innovator in Post-Quantum Technology hardware and software solutions. Our technology seamlessly integrates Semiconductors, PKI (Public Key Infrastructure), and Provisioning Services, with a strategic emphasis on developing state-of-the-art Quantum Resistant Cryptography and Semiconductors designed to address the urgent security challenges posed by quantum computing. As quantum computers advance, traditional cryptographic methods like RSA and Elliptic Curve Cryptography (ECC) are increasingly vulnerable.

SEALSQ is pioneering the development of Post-Quantum Semiconductors that provide robust, future-proof protection for sensitive data across a wide range of applications, including Multi-Factor Authentication tokens, Smart Energy, Medical and Healthcare Systems, Defense, IT Network Infrastructure, Automotive, and Industrial Automation and Control Systems. By embedding Post-Quantum Cryptography into our semiconductor solutions, SEALSQ ensures that organizations stay protected against quantum threats. Our products are engineered to safeguard critical systems, enhancing resilience and security across diverse industries.

For more information on our Post-Quantum Semiconductors and security solutions, please visit www.sealsq.com.

Forward-Looking Statements
This communication expressly or implicitly contains certain forward-looking statements concerning SEALSQ Corp and its businesses. Forward-looking statements include statements regarding our business strategy, financial performance, results of operations, market data, events or developments that we expect or anticipate will occur in the future, as well as any other statements which are not historical facts. Although we believe that the expectations reflected in such forward-looking statements are reasonable, no assurance can be given that such expectations will prove to have been correct. These statements involve known and unknown risks and are based upon a number of assumptions and estimates which are inherently subject to significant uncertainties and contingencies, many of which are beyond our control. Actual results may differ materially from those expressed or implied by such forward-looking statements. Important factors that, in our view, could cause actual results to differ materially from those discussed in the forward-looking statements include SEALSQ's ability to continue beneficial transactions with material parties, including a limited number of significant customers; market demand and semiconductor industry conditions; and the risks discussed in SEALSQ's filings with the SEC. Risks and uncertainties are further described in reports filed by SEALSQ with the SEC.

SEALSQ Corp is providing this communication as of this date and does not undertake to update any forward-looking statements contained herein as a result of new information, future events or otherwise.

SEALSQ Corp. Carlos Moreira Chairman & CEO Tel: +41 22 594 3000 info@sealsq.com

SEALSQ Investor Relations (US) The Equity Group Inc. Lena Cati Tel: +1 212 836-9611 lcati@theequitygroup.com

FAQ

What is SEALSQ's (LAES) new quantum computing solution targeting?

SEALSQ's new solution targets improving semiconductor wafer yields for sub-7nm nodes by addressing IR Drop issues using quantum computing and advanced mathematical modeling.

How much can SEALSQ's new technology improve semiconductor wafer yields?

The technology aims to improve wafer yields from 50% to 80%, potentially reducing per-chip costs by nearly half.

When will SEALSQ's (LAES) quantum computing semiconductor solution be commercially available?

The solution is targeted for commercial deployment in 2026, following a six-month development period and proof-of-concept demonstration.

Who are SEALSQ's partners in developing this quantum computing semiconductor solution?

SEALSQ is partnering with ColibriTD, a Quantum-as-a-Service platform provider, and Xdigit, a specialized semiconductor design company.

What is the main problem SEALSQ's quantum computing solution addresses in semiconductor manufacturing?

The solution addresses IR Drop issues in sub-7nm nodes, which is a significant bottleneck causing yield losses exceeding 50% due to increased wire resistance and quantum effects.