Geneva, Switzerland, Feb. 19, 2026 (GLOBE NEWSWIRE) -- EeroQ has demonstrated a capital-efficient, practical path to scaling from thousands of electrons today to millions of electron spin qubits in the future. SEALSQ Corp (NASDAQ: LAES) (“SEALSQ” or the “Company”), a global leader in semiconductors, PKI, and post-quantum cybersecurity technologies, today announced a new strategic investment in EeroQ, a U.S.-based quantum chip design company pioneering a breakthrough quantum computing architecture based on ...

Geneva, Switzerland, Feb. 18, 2026 (GLOBE NEWSWIRE) -- Post-Quantum Cryptography TPM-Enabled Secure RoT PoC Showcase at Embedded World, in Nuremberg, in March 2026 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, today announced its collaboration with Lattice Semiconductor (NASDAQ: LSCC) to integrate TPM-based advanced post-quantum security capabilities into select Lattice FP ...

Geneva, Switzerland, Feb. 17, 2026 (GLOBE NEWSWIRE) -- Entered 2026 With a Strong Commercial Momentum Expects Q1 2026 Revenue to Grow over 100% as Compared to Q1 2025Reaffirms FY 2026 Guidance with Revenue Expected to Grow Between 50%-100% Year Over Year SEALSQ Corp (NASDAQ: LAES) (“SEALSQ” or the “Company”), a global leader in semiconductor, PKI, and post-quantum security technologies, today announces key preliminary operational and financial metrics for fourth quarter (“Q4”) and full year (“FY”) 2025, pr ...

Core Insights - SEALSQ Corp is positioning itself as a leader in embedded security and post-quantum cryptography, aiming to create a trusted infrastructure for Physical AI, leveraging its experience from over 1.75 billion secure semiconductor devices deployed globally [1][11] Group 1: Technology and Innovation - Physical AI represents a shift from traditional automation to machines that understand spatial relationships and environmental dynamics through multimodal sensing [2] - SEALSQ's expertise in cryptographically authenticated devices and secure Root of Trust architecture is evolving towards post-quantum cryptography readiness, providing a foundation for secure and autonomous Physical AI systems [3][8] - The company plans to enhance its portfolio with next-generation secure microcontrollers and hardware security modules, integrating them into complex system-on-chip platforms to ensure data authenticity and integrity [4] Group 2: SEALCOIN.AI and Economic Interactions - SEALCOIN.AI is being introduced as a secure transactional layer for autonomous systems, enabling verifiable exchanges of value and services without centralized intermediaries [5] - The SEALCOIN platform, a subsidiary of WISeKey, focuses on decentralized physical internet technology, enhancing AI-to-AI interactions and automated service execution [5] Group 3: Security and Resilience - By embedding post-quantum cryptography into hardware, SEALSQ aims to protect data and transactions against future quantum threats, ensuring accountability and security [6][8] - The company emphasizes the importance of hardware-anchored identity to safeguard against hijacking and malicious manipulation, particularly in sensitive environments like healthcare and defense [7][12] Group 4: Market Position and Future Outlook - SEALSQ's Root of Trust is already deployed in over six billion devices, providing a secure identity and encrypted communications across various ecosystems [9] - The CEO highlighted the combination of SEALSQ's expanding portfolio and the SEALCOIN.AI layer as a "quantum-resilient cryptographic nervous system" for connecting machines and humans securely [10] - The company's focus on post-quantum technology positions it as a foundational enabler for the next generation of autonomous systems across multiple industries [11][14]

Core Insights - SEALSQ Corp has introduced its quantum-resistant chip, QS7001, at Tech&Fest, aimed at meeting new legal requirements like CNSA 2.0 for cryptographic transition [3][10] - The QS7001 is designed to be integrated into various intelligent devices, ensuring compliance with emerging post-quantum mandates [3][10] Product Features - The QS7001 is a secure microcontroller built on a 32-bit RISC-V core, featuring a dedicated cryptographic acceleration subsystem that enhances performance and reduces power consumption [4][5] - It achieves up to 10x performance improvement over software-only post-quantum cryptography (PQC) implementations by executing lattice operations directly in hardware [5] - The chip includes 512 KB embedded FLASH and secure SRAM, supporting ML-DSA-87 for firmware signing and ML-KEM for quantum-resistant key establishment [6][11] Compliance and Security - The QS7001 aligns with CNSA 2.0 requirements, mandating ML-DSA-87 for firmware signing and ML-KEM for secure key exchange, ensuring system integrity in high-security environments [7][11] - It features anti-rollback firmware protection and cryptographic integrity checks to safeguard against side-channel attacks and fault injections [7][10] Hybrid Support and Migration - The chip supports hybrid cryptographic modes, allowing for a transition from classical public-key cryptography to post-quantum algorithms, ensuring backward compatibility [8][13] - This capability is crucial for organizations to maintain compliance with evolving security standards while upgrading their systems [8][16] Physical Security and Tamper Resistance - The QS7001 is engineered for high-level security certifications, integrating active tamper detection and side-channel hardened cryptographic engines [9][14] - These features are essential for applications in robotics, defense systems, and critical infrastructure where physical exposure is a concern [9][10] Application Integration - The QS7001 is designed for integration in robotics and intelligent systems, ensuring quantum-safe operations and secure communications [10][15] - It acts as a hardware trust anchor for AI model integrity and secure device-to-device authentication, addressing future quantum threats [15][18] Strategic Importance - CNSA 2.0 represents a significant shift in cryptographic strategy, compelling governments and technology providers to redesign systems for long-term quantum resilience [16][17] - SEALSQ is positioned as a leader in developing post-quantum technology solutions, addressing urgent security challenges posed by advancing quantum computing [17][18]

Core Viewpoint - WISeKey's subsidiary WISeSat is set to launch its 21st LEO satellite in March 2026, aiming to enhance secure IoT communications through a constellation of satellites, integrating advanced technologies for a quantum-secure digital future [1][5][8]. Group 1: Launch and Collaboration - The upcoming satellite launch will be conducted in partnership with SpaceX from California, marking a significant milestone for WISeSat [1]. - WISeSat is collaborating with SEALSQ and SEALCOIN.AI to embed advanced technologies into the satellite platform, enhancing its capabilities for the space quantum internet [2][3]. Group 2: Technological Advancements - The new generation of WISeSat satellites will incorporate SEALSQ's Post-Quantum chips and SEALCOIN wallet, aiming to deliver high-speed, low-latency broadband services [3][5]. - Continuous satellite renewal is essential, with an average lifespan of five years, to integrate new technologies and improve performance [4]. Group 3: Market Strategy and Financial Aspects - WISeSat plans to list on NASDAQ through a business combination with Columbus Acquisition Corp, which is expected to provide capital for accelerating satellite deployment [5]. - The satellite network will enable secure device-to-device transactions for IoT devices equipped with WISeKey and SEALSQ microchips [5]. Group 4: Industry Impact and Future Plans - WISeSat aims to address the growing demand for secure IoT connectivity across various sectors, including logistics, agriculture, and energy, through its satellite-based architecture [6]. - Multiple satellite deployments are planned throughout 2026, focusing on expanding coverage, increasing bandwidth, and integrating AI-driven analytics for enhanced security [7][8]. Group 5: Leadership and Vision - Carlos Moreira, CEO of WISeKey, emphasized the importance of the new launch in securing IoT communications and addressing future security challenges [9][10]. - The integration of advanced technologies aims to redefine machine-to-machine transactions and support a scalable Transactional IoT infrastructure [10][11].

Core Viewpoint - WISeKey's subsidiary WISeSat is set to launch its 21 LEO satellite in March 2026 in collaboration with SpaceX, aiming to enhance secure IoT connectivity through a constellation of satellites that will support quantum-secure broadband services [1][5]. Group 1: Launch and Collaboration - The launch of the 21 LEO satellite is scheduled for the end of March 2026 from California with SpaceX [1]. - WISeSat is collaborating with SEALSQ Corp and SEALCOIN.AI to integrate advanced technologies into the satellite platform, enhancing its capabilities for the space quantum internet [2][3]. Group 2: Technological Innovations - The satellites will incorporate SEALSQ's Post-Quantum chip and SEALCOIN wallet, aiming to deliver high-speed, low-latency broadband services [3]. - Innovations from SEALSQ's quantum roadmap will be leveraged to improve security, performance, and operational efficiency of the satellite network [3]. Group 3: Deployment Strategy - The upcoming launch marks the first operational deployment of a new generation of WISeSat satellites, which will modernize the existing constellation [4]. - Continuous renewal of the satellite fleet is essential, with an average lifespan of approximately five years, to integrate new technologies and enhance performance [4]. Group 4: Market Access and Financial Strategy - WISeSat plans to list on NASDAQ through a business combination with Columbus Acquisition Corp, which is expected to provide access to capital markets and accelerate the deployment of its satellite constellation [5]. - This infrastructure will enable secure device-to-device connectivity for IoT devices equipped with WISeKey and SEALSQ microchips [5]. Group 5: Industry Impact and Future Plans - WISeSat aims to address the growing demand for secure, real-time connectivity across critical sectors such as logistics, agriculture, energy, and infrastructure management [6]. - Multiple deployments are planned throughout 2026 to expand constellation coverage, increase bandwidth, and integrate AI-driven analytics for enhanced security [7]. Group 6: Commitment to Security and Sustainability - The WISeSat IoT satellite constellation is positioned to play a critical role in creating a more resilient and secure future amid evolving cyber and environmental challenges [8]. - The integration of satellite data with advanced climate models is expected to enhance understanding and strategies to combat climate change [13].

Core Viewpoint - Recent advancements in classical AI, such as Anthropic's Claude Opus 4.6, do not materially alter the quantum computing threat landscape or the requirements for quantum-secure cryptographic architectures [1][5]. Quantum Computing vs. Classical AI - Quantum computing operates on principles like superposition and entanglement, requiring scalable qubit architectures and fault-tolerant error correction, which are not addressed by classical AI advancements [3][4]. - Large language models, including Claude Opus 4.6, cannot execute quantum algorithms or undermine post-quantum cryptographic methods [4][5]. Security Architecture Implications - The quantum threat model remains unchanged, with the need for post-quantum cryptography and secure hardware components still essential for long-term digital trust [6][8]. - The deployment of advanced AI systems increases the urgency for quantum-secure infrastructure, as it expands the digital attack surface and accelerates vulnerability discovery [8][9]. Market Reactions and Industry Dynamics - Market reactions to AI announcements reflect disruptions in enterprise software rather than foundational security technology changes [7]. - The anticipated impacts of AI are primarily in automation and content generation, which do not apply to secure silicon and cryptographic hardware governed by physical constraints [7]. SEALSQ's Position and Offerings - SEALSQ is focused on developing post-quantum technology solutions, integrating semiconductors and PKI to address security challenges posed by quantum computing [10][11]. - The company is pioneering post-quantum semiconductors designed to protect sensitive data across various applications, ensuring resilience against quantum threats [12].

Core Insights - WISeKey International Holding Ltd and its subsidiary WISeSat have signed a commercial agreement with Latitude to assess the orbital launch of a secure IoT satellite constellation, aiming to deploy 100 satellites by 2029 to enhance global IoT connectivity and environmental monitoring [1][5][9] Group 1: Strategic Collaboration - The partnership with Latitude is aimed at developing the Zephyr Launcher, a small orbital rocket designed to meet the deployment needs of modern satellite constellations [3][4] - This collaboration is expected to provide a fast, controlled, and mission-compliant deployment that aligns with the stringent security requirements of critical IoT applications [4][11] Group 2: Market Demand and Technological Integration - There is a growing global demand for IoT connectivity for various applications, including environmental monitoring and critical infrastructure oversight, which WISeSat aims to address with its satellite constellation [2][12] - The satellites will incorporate WISeKey's core cybersecurity technologies, ensuring secure data transmission and robust protection for IoT communications [6][7] Group 3: Future Infrastructure Development - The agreement signifies a shift towards a new generation of digital infrastructure that integrates space, cybersecurity, and IoT, which is crucial for data protection in both enterprise and government sectors [6][9] - The collaboration is positioned to support essential applications, providing a sovereign and scalable response to the increasing connectivity needs globally [9][10]

Core Viewpoint - SEALSQ Corp is developing a vertically integrated sovereign root-to-quantum security platform to address the risks posed by quantum computing to critical systems, emphasizing the need for Europe to secure its digital and industrial infrastructures through sovereign technologies [3][4]. Group 1: Company Overview - SEALSQ Corp focuses on developing and selling semiconductors, PKI, and post-quantum technology hardware and software products [3]. - The company is recognized as a leading innovator in post-quantum technology solutions, integrating semiconductors and public key infrastructure with a focus on quantum-resistant cryptography [9][10]. Group 2: Technology and Development - The platform is designed as an end-to-end chain of trust, incorporating secure semiconductor design, post-quantum cryptography, and trusted provisioning [5]. - It features a hardware-embedded Root of Trust that ensures secure identity, boot processes, key generation, and resistance to attacks [5]. - SEALSQ integrates post-quantum cryptographic mechanisms optimized for embedded environments, allowing for cryptographic agility as standards evolve [6]. Group 3: Sovereign Connectivity - A key feature of the platform is its sovereign quantum connectivity, which connects quantum nodes via a proprietary quantum highway, ensuring secure interactions between quantum and classical systems [7]. - Each quantum node is cryptographically bound to a silicon Root of Trust, enhancing integrity and protection against supply-chain compromises [7]. Group 4: Lifecycle Security - The platform secures the entire lifecycle of devices, from manufacturing to decommissioning, ensuring long-term resilience and operational control [8]. - The CEO described the platform as a "sovereign digital aircraft carrier," highlighting its capability to secure critical systems and maintain strategic autonomy in the quantum era [8]. Group 5: Market Applications - SEALSQ's post-quantum semiconductors are designed to protect sensitive data across various applications, including multi-factor authentication, healthcare systems, defense, and industrial automation [11]. - By embedding post-quantum cryptography into semiconductor solutions, the company aims to safeguard critical systems against emerging quantum threats [11].