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The announcement of a strategic partnership between SEALSQ Corp and Lattice Semiconductor marks a paradigm shift in edge computing and infrastructure security. The collaboration is committed to providing a unified TPM-FPGA architecture that is especially made to offer post-quantum security for high-stakes and mission-critical applications. Through direct integration of Trusted Platform Module (TPM) capabilities into Field Programmable Gate Array (FPGA) technologies, the two businesses hope to overcome the imminent danger to global data integrity posed by quantum computing.
A New Standard for Quantum-Resistant Hardware
The core of this partnership is the combination of Lattice’s industry-leading, power-efficient FPGA platforms with SEALSQ’s QS7001 and QVault TPM-based post-quantum capabilities. Because of this combination, a Proof-of-Concept (PoC) proving the technological viability of directly integrating Post-Quantum Cryptography (PQC) into FPGA systems has been produced.
What the company refers to as “enhanced edge security” is based on this proof of concept. To make sure that devices near the network’s edge, where data is processed more often, have the resilience needed to survive sophisticated cyberthreats, it makes use of a secure Root-of-Trust and RoT. Eric Sivertson, Lattice Semiconductor’s Vice President of Security Business, said that this endeavor broadens their “quantum-capable portfolio,” giving clients a variety of ways to get quantum-resilience with high performance and assurance.
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Addressing the Vulnerability of Traditional Encryption
This collaboration is crucial since quantum computers are developing so quickly. The emphasize the growing vulnerability of conventional cryptographic techniques like Elliptic Curve Cryptography (ECC) and RSA. Once believed to be impenetrable, these conventional encryption algorithms run the risk of being readily circumvented as quantum processing power increases.
In the field of post-quantum semiconductors, SEALSQ is establishing itself as a leader by creating hardware that offers protection that is resilient to the future. To provide a comprehensive security environment, their system combines semiconductors, Public Key Infrastructure (PKI), and provisioning services. This is especially important for Physical AI, which SEALSQ says is a key component of embedded security in the future.
Strategic Alignment and Global Standards
This technical endeavor is in line with a larger industrial and geopolitical trend. In Washington, D.C., leaders from academia, industry, and government came together to establish the Year of Quantum Security 2026 (YQS2026) and came to the conclusion that quantum security is now an infrastructure and governance need rather than a theoretical concept.
As advocated by groups like NIST, SEALSQ and Lattice have both shown support for the advancement of post-quantum standards. Together, they are showcasing technical compatibility that facilitates the global shift to next-generation quantum-secure electronics. This partnership is a crucial component of SEALSQ’s strategy to empower strategic partners throughout the semiconductor industry and expand its leadership beyond direct OEM sales, according to Bernard Vian, General Manager of SEALSQ.
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Broad Industry Applications
Almost every industry that depends on digital security will be affected by a single FPGA-TPM design. Sensitive information is protected by SEALSQ’s post-quantum solutions for a variety of uses, such as:
- EV Charging and Smart Energy: Preventing remote manipulation of the grid and charging infrastructure.
- Medical and Healthcare Systems: Protecting private patient information and medical equipment integrity.
- Defense and Aerospace: Keeping mission-critical communication safe from state-sponsored quantum attacks is a priority for defense and aerospace.
- Automotive: Protecting contemporary automobiles’ intricate electronic systems.
- Industrial Automation: Safeguarding manufacturing and logistical control systems.
- Smart home and consumer IoT: offering matter attestation and device-to-cloud authentication for consumer electronics.
- IT Network Infrastructure: fortifying the foundation of international communications.
Financial Momentum and Market Growth
This partnership was announced after SEALSQ experienced a period of substantial expansion. According to the company’s FY 2025 preliminary financial indicators, revenue increased by 66% to $18 million. Looking ahead, SEALSQ anticipates that revenue for the first quarter of 2026 will increase by more than 100% over the same period the year before. Together with the more than 1.75 billion secure semiconductor devices that have already been deployed globally, this financial strength highlights the company’s capacity to scale its post-quantum breakthroughs.
Live Showcase at Embedded World 2026
At Embedded World 2026 in Nuremberg, Germany, the FPGA-TPM post-quantum security proof of concept will be shown to the industry for the first time. The unified architecture can be seen in action by visitors to Lattice’s exhibit at Hall 4, Booth #528 from March 10–12.
The demonstration will show how the architecture may provide a reliable root of edge crypto updatability and robustness. In addition, on March 10th at 5 PM, Eric Sivertson will give a conference session called “Trusted Resilience Edge: Unified FPGA-TPM for Post-Quantum Cryptography RED & Cyber Resilience Act” that will reveal more about how these technologies satisfy the demands of new cybersecurity laws.
As the world moves closer to a “quantum-ready” future, SEALSQ and Lattice’s collaboration is an important step in creating the robust hardware required to defend the global digital economy against the newest cyberthreats.
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