Core Viewpoint - SEALSQ Corp has signed a Share Purchase Agreement to acquire 100% of IC'ALPS SAS, enhancing its capabilities in ASIC development to meet growing sector demand [2][4]. Company Overview - SEALSQ Corp specializes in semiconductors, PKI, and Post-Quantum technology solutions, focusing on quantum-resistant cryptography to address security challenges posed by advancing quantum computing [7][8]. - IC'ALPS SAS is an ASIC design and supply specialist based in France, providing a comprehensive range of services from circuit specification to production supply chain management [6]. Acquisition Details - The acquisition of IC'ALPS is expected to add approximately 100 skilled employees and is anticipated to be completed in the third quarter of 2025, pending regulatory approval [4][5]. - The SPA follows a period of exclusive negotiations that began on February 27, 2025, with the main terms remaining applicable as announced on May 22, 2025 [3]. Strategic Implications - This acquisition is aimed at reinforcing SEALSQ's commitment to ASIC development, which is crucial for meeting the increasing demand in various sectors including medical, industrial, automotive, and IoT [4][6]. - IC'ALPS has expertise in analog, digital, and mixed-signal circuits, which will complement SEALSQ's existing capabilities in semiconductor technology [6].

Core Viewpoint - SEALSQ Corp has made a strategic investment in Wecan Token to enhance its digital identity solutions and reinforce its commitment to secure and decentralized identity management [1][2]. Group 1: Investment and Strategic Importance - The investment in Wecan Token is a significant step towards enabling trusted KYC processes and digital identity services using blockchain technology [2]. - SEALSQ is establishing a dedicated reserve of Wecan Tokens to support its digital trust ecosystem and future integrations [2]. Group 2: Integration and Use Cases - By integrating Wecan Token with SEALSQ's WISeID platform, the company aims to enhance secure identity verification across regulated industries, including KYC compliance and digital onboarding [3]. - The Wecan Token serves as a utility token for secure digital signatures, consent management, and verified data sharing, facilitating legally binding digital transactions [5]. Group 3: Benefits for Financial Institutions - Financial institutions can benefit from reduced operational costs, enhanced security, and improved customer trust through seamless digital interactions enabled by the integration of Wecan Token [6]. - The use of verifiable credentials and blockchain-based identity proofs streamlines onboarding processes and minimizes manual verification efforts [8]. Group 4: Future Growth Potential - The Wecan Token has a capped supply of 6 billion tokens and is positioned to play a crucial role in next-generation digital services, particularly in identity management and digital signature workflows [7]. - SEALSQ's investment reflects a long-term belief in decentralized identity, aiming to set new standards for privacy and trust in the digital economy [8][9]. Group 5: Wecan Group Overview - Wecan Group, founded in 2015, specializes in blockchain-based solutions for secure data management, focusing on improving data handling efficiency for various sectors [9][11]. - Wecan Comply is a leading platform for orchestrating KYC and KYB compliance data, connecting financial institutions through a secure data exchange protocol [10].

VANCOUVER, BC, May 27, 2025 /PRNewswire/ - BTQ Technologies Corp. (the "Company") (CBOE CA: BTQ) (FSE: NG3) (OTCQX: BTQQF), a global quantum technology company focused on securing mission- critical networks, is pleased to announce the signing of a Memorandum of Understanding (MOU) with ICTK Co., Ltd. ("ICTK"), a South Korea-based pioneer in hardware-level security technologies. Through this strategic collaboration, the two companies will explore the joint development of next-generation hardware systems desi ...

Core Viewpoint - SEALSQ Corp has introduced its advanced post-quantum cryptographic technology, QS7001, to secure Bitcoin wallets against potential quantum computer threats, marking a significant advancement in blockchain asset security in the quantum era [3][4]. Group 1: Quantum Threat to Bitcoin - Bitcoin wallets utilize elliptic curve cryptography (ECC), specifically the secp256k1 curve, which is vulnerable to quantum attacks using Shor's algorithm, potentially compromising wallet security [4]. - The advancement of quantum computing poses a significant risk to the integrity of decentralized finance, necessitating robust security measures [4]. Group 2: SEALSQ's Quantum-Resistant Solution - SEALSQ's PQC technology is based on NIST-standardized algorithms CRYSTALS-Kyber and CRYSTALS-Dilithium, designed to withstand quantum attacks and ensure forward secrecy and unforgeable signatures [5]. - The QS7001 secure element integrates these algorithms, providing hardware-backed security optimized for resource-constrained environments like hardware wallets and IoT devices [6][7]. Group 3: Migration Framework for Developers - SEALSQ offers a migration framework for Bitcoin wallet developers, emphasizing the importance of post-quantum cryptography for future-proofing blockchain security [8]. - The company highlights the necessity of trusted roots in cryptography to ensure security against quantum threats, positioning itself as a leader in semiconductor-driven cybersecurity [8]. Group 4: About SEALSQ - SEALSQ is a pioneer in developing post-quantum technology solutions, integrating semiconductors and public key infrastructure to address security challenges posed by quantum computing [9][10]. - The company aims to provide robust protection for sensitive data across various applications, ensuring organizations remain secure against quantum threats [10].

Core Insights - SEALSQ Corp showcased its advancements in post-quantum cryptography (PQC) during the "Quantum Days 2025" event, demonstrating NIST-standardized algorithms Crystal Kyber and Crystal Dilithium on secure devices [1][2][3] Group 1: Company Overview - SEALSQ focuses on developing and selling semiconductors, PKI, and post-quantum technology hardware and software products [1][5] - The company is a leader in post-quantum technology, integrating PQC into its semiconductor solutions to address security challenges posed by quantum computing [5][6] Group 2: Product Demonstrations - Live demonstrations of the Kyber algorithm showcased secure key exchange, while the Dilithium algorithm confirmed message integrity and tamper detection [3][8] - The demonstrations were conducted on SEALSQ's latest quantum-resistant hardware platform, QS 7001, highlighting real-world applications of PQC [3] Group 3: Industry Relevance - SEALSQ's PQC solutions aim to protect data integrity and confidentiality in IoT ecosystems, positioning the company as a trusted partner for industries such as automotive, healthcare, and smart infrastructure [3][4] - The integration of PQC algorithms ensures compliance with global cybersecurity standards and meets the growing demand for quantum-resistant IoT solutions [4]

Core Insights - The National Security Agency (NSA) has introduced the Commercial National Security Algorithm Suite 2.0 (CNSA 2.0) to establish quantum-resistant cryptographic standards, urging data centers and computing markets to become post-quantum ready within two years [1][3] - Microchip Technology has developed the MEC175xB embedded controllers featuring post-quantum cryptography, enhanced security features, and low power consumption to meet evolving security demands [1][2] Company Overview - Microchip Technology Inc. is a leading provider of smart, connected, and secure embedded control and processing solutions, serving over 100,000 customers across various markets including industrial, automotive, consumer, aerospace, defense, communications, and computing [10] Product Features - The MEC175xB family employs a modular approach for developers to adopt post-quantum cryptography efficiently, ensuring long-term data protection without compromising existing functionality [2][3] - These controllers incorporate NIST-approved post-quantum cryptographic algorithms, including Module-Lattice-Based Digital Signature Algorithms (ML-DSA) and Module-Lattice-Based Key-Encapsulation Mechanism (ML-KEM), implemented in immutable hardware to block potential attack paths [3][4] - The controllers feature secure boot and firmware update schemes configurable for CNSA 1.0 or 2.0, enhancing system integrity and authenticity [4] Technical Specifications - The MEC175xB controllers are powered by an Arm Cortex-M4F processor running at 96 MHz, with 480 KB of SRAM and various connectivity options including I3C and optional USB 2.0 Full-Speed interface [4] - They are compatible with MPLAB X Integrated Development Environment (IDE) and supported by example projects and development boards [6] Availability - The MEC175xB controllers are currently available as part of Microchip's early adopter program, with further information accessible through Microchip's sales representatives or website [7]

Core Insights - The National Security Agency (NSA) has introduced the Commercial National Security Algorithm Suite 2.0 (CNSA 2.0) to establish quantum-resistant cryptographic standards, urging data center and computing markets to become post-quantum ready within two years [1] - Microchip Technology has developed the MEC175xB embedded controllers that support immutable post-quantum cryptography, aimed at helping system architects meet evolving security demands [1][2] Company Overview - Microchip Technology Inc. is a leading provider of smart, connected, and secure embedded control and processing solutions, serving over 100,000 customers across various markets including industrial, automotive, consumer, aerospace, defense, communications, and computing [8] Product Features - The MEC175xB family employs a modular approach for developers to adopt post-quantum cryptography efficiently, ensuring long-term data protection without compromising existing functionality [2] - These controllers are designed with NIST-approved post-quantum cryptographic algorithms, secure boot solutions, and an advanced Enhanced Serial Peripheral Interface (eSPI) [2] - The controllers incorporate CNSA 2.0-compliant Module-Lattice-Based Digital Signature Algorithms (ML-DSA), Merkle stateful hash-based Leighton-Micali Signature (LMS) verification, and Module-Lattice-Based Key-Encapsulation Mechanism (ML-KEM) [3] Technical Specifications - The MEC175xB controllers feature an Arm® Cortex®-M4F processor running at 96 MHz, 480 KB of SRAM, and various connectivity options including I3C® and optional USB 2.0 Full-Speed interface [4] - They include secure boot and firmware update schemes configurable for CNSA 1.0 or 2.0 or hybrid-based signature verification, enhancing system integrity and authenticity [4] Development Tools - MEC175xB controllers are compatible with MPLAB® X Integrated Development Environment (IDE) and supported by example projects available in the Secure Document Extranet (SDE) [6] Availability - The MEC175xB controllers are currently available as part of Microchip's early adopter program, with additional information accessible through Microchip's sales representatives or their website [7]

Core Insights - The FPGA market is projected to grow from $11.14 billion in 2025 to $18.76 billion by 2030, with a CAGR of 10.98% during this period [2] - AMD and Lattice Semiconductor (LSCC) are key players in this market, with AMD benefiting from its acquisition of Xilinx and LSCC focusing on low-power FPGA solutions [1][7] AMD Insights - AMD's acquisition of Xilinx has allowed it to expand into various embedded markets, including CPUs, GPUs, and FPGAs [3] - The latest VP1902 adaptive SoC from AMD features 18.5 million logic cells, doubling the programmable logic density compared to the previous generation [4] - In Q1 2025, AMD launched a high-performance 5G core powered by the Virtex UltraScale+ XCVU5P FPGA and completed initial shipments of cost-optimized Spartan UltraScale Plus FPGAs [5] - AMD is enhancing partnerships with major cloud providers like AWS, which launched FPGA-accelerated instances powered by AMD's EPYC processors and Xilinx Virtex FPGAs [6] LSCC Insights - LSCC is experiencing strong demand for its small and mid-range FPGA solutions, particularly with its Nexus and Avant product families [7] - The company is targeting high-growth applications such as AI, data centers, and advanced driver-assistance systems in automotive [8] - In February 2025, LSCC validated Everspin Technologies' MRAM for use across its FPGAs, enhancing suitability for mission-critical applications [9] Performance and Valuation - Year-to-date, AMD shares have decreased by 6.9%, while LSCC shares have fallen by 1.4% due to a challenging macroeconomic environment [10] - Both AMD and LSCC shares are currently considered overvalued, with AMD trading at a forward Price/Sales ratio of 5.41X and LSCC at 13.91X [13] - The Zacks Consensus Estimate for AMD's 2025 earnings is $4.09 per share, reflecting a 23.56% year-over-year increase, while LSCC's estimate is $1.05 per share, indicating a 16.67% increase [16] - AMD has consistently beaten earnings estimates, while LSCC has missed estimates in two of the last four quarters [17] Conclusion - AMD's portfolio expansion and partnerships position it for significant growth in the FPGA market, while LSCC's focus on low-power solutions captures emerging opportunities [18] - AMD is rated higher than LSCC, with a Zacks Rank of 3 (Hold) compared to LSCC's 4 (Sell) [18]

Core Viewpoint - SEALSQ Corp's QVault Trusted Platform Module (TPM) achieves compliance with the highest-security parameter sets of NIST-standardized CRYSTALS-Dilithium and CRYSTALS-Kyber algorithms, reinforcing its position in quantum-resistant security solutions for various markets [1][2][8] Group 1: Technology and Compliance - QVault TPM is compliant with ML-DSA-87 and ML-KEM-1024, which are the most robust variants of post-quantum cryptography algorithms standardized by NIST [2][3] - ML-DSA-87 features a public key size of 1,952 bytes and a signature size of 4,595 bytes, targeting security equivalent to AES-256, making it suitable for applications requiring long-term data integrity [7] - ML-KEM-1024 has a public key size of 1,568 bytes and a ciphertext size of 1,568 bytes, also achieving AES-256-equivalent security for robust key exchange [7] Group 2: Market Demand and Industry Trends - The demand for quantum-resistant cryptography is increasing due to advancements in quantum computing, with predictions of relevant quantum computers emerging within a decade [4] - Industry leaders like IBM emphasize the importance of these standards for protecting encrypted data, with expectations of significant adoption in products for government and financial services [5] - Cloudflare reported that nearly 2% of TLS 1.3 connections were PQC-secured by early 2024, with expectations of double-digit adoption by year-end [5] Group 3: Applications and Use Cases - QVault TPM supports a range of applications, including secure firmware signing, quantum-safe authentication for IoT devices, and secure vehicle-to-everything communications [8][13] - The integration of ML-DSA-87 and ML-KEM-1024 into QVault TPM provides a tamper-resistant environment for cryptographic operations and key storage [8] - SEALSQ's technology is designed to address urgent security challenges posed by quantum computing across various sectors, including defense, IoT, and automotive [10]

Core Insights - Fortinet has launched the FortiGate 700G series, a next-generation firewall designed for modern campuses, featuring advanced capabilities such as post-quantum cryptography and AI-driven threat detection [1][2] Performance and Specifications - The FortiGate 700G series offers up to 7x higher firewall throughput (164 Gbps) and 4x better threat protection (26 Gbps) compared to industry averages [4][5] - It supports IPsec VPN throughput of 55 Gbps, which is also 7x higher than competitors [4] - The series can handle 16 million concurrent sessions and 700,000 connections per second, outperforming other leading brands [6] Energy Efficiency - The FortiGate 700G series consumes 1.8 watts per Gbps for firewall throughput, which is 7x more efficient than the industry average [6] - For IPsec VPN throughput, it consumes 5.4 watts per Gbps, 6x lower than competitors [6] Advanced Security Features - The series includes FortiAI-Protect for AI-driven threat detection and risk mitigation, enhancing the ability to block sophisticated cyber threats [5] - It features post-quantum cryptography readiness, enabling organizations to protect sensitive data against future quantum threats [5] Integration and Scalability - Fortinet's Security Fabric integrates the FortiGate 700G series into a unified cybersecurity platform, providing centralized management and real-time visibility across hybrid environments [7] - The series supports a wide range of network interfaces from 5GE to 25GE, allowing for flexibility and future upgrades without significant costs [5]