Latest news with #QRNG
Yahoo
27-06-2025
- Business
- Yahoo
CORRECTION FROM SOURCE: Quantum eMotion Announces Successful Completion of Quantum Simulation Project Evaluating Sentry-Q Cryptographic Architecture
This news release corrects and replaces the news release that was issued by Quantum eMotion Corp. on June 26, 2025 - PINQ2 boilerplate and quote added. There are no material changes to the previous news release. Montreal, Quebec--(Newsfile Corp. - June 27, 2025) - Quantum eMotion Corp. (TSXV: QNC) (OTCQB: QNCCF) (FSE: 34Q0) ("QeM" or the "Company"), a developer of quantum-secure technologies, announces the completion of an internal quantum simulation project assessing aspects of its cryptographic architecture. The benchmarking project, conducted in collaboration with PINQ² (Plateforme d'Innovation Numérique et Quantique), utilized IBM's Qiskit quantum computing framework to simulate Grover's algorithm-a quantum search algorithm known for its theoretical ability to speed up brute-force attacks on symmetric encryption schemes. The analysis focused on evaluating the relative complexity of attacking symmetric encryption algorithms when enhanced with entropy from QeM's proprietary Quantum Random Number Generator (QRNG). Key Observations: Simulations indicate that the success rate of Grover's algorithm decreases significantly with increasing key size. The integration of QeM's QRNG appears to increase oracle complexity and circuit depth in the simulated quantum circuits, suggesting a higher computational burden for potential quantum attackers. At projected real-world key sizes (e.g., 256 bits), Grover's algorithm would require approximately 2¹²⁸ iterations to succeed, rendering such attacks infeasible with foreseeable quantum hardware. "While our simulations are conducted at small key sizes, the extrapolated trends support a clear conclusion: the integration of our QRNG-generated entropy demonstrates characteristics consistent with strong resistance to quantum attacks," said Dr. Francis Bellido, CEO of Quantum eMotion. "This work strengthens our confidence in the security-by-design approach we are taking with Sentry-Q and our broader post-quantum product roadmap." Marie-Claude Messier, General Manager (Directrice générale) of PINQ² added: "We are proud that Quebec companies have the opportunity to advance their research and development activities through our cutting-edge infrastructure." The project lays the groundwork for future validation in embedded and edge environments. Next-phase development will include hybrid testbenches and real-time emulation of cryptographic architectures enhanced with QRNG under constrained computing conditions. About PINQ² PINQ² is a non-profit organization offering a digital and quantum innovation platform operating at the provincial and national levels. Through a single interface, it provides access to both quantum and classic computing resources. This collaborative environment lowers barriers related to costs, technical complexity and infrastructure management, enabling businesses and universities to test, validate, and deploy advanced technological solutions. PINQ² operates the only IBM Quantum System One in Canada and supports innovation, particularly in the finance, environmental, energy, aerospace, and life and biomedical sciences sectors. Media contact:Marion Urso, Director - Communications ServiceDRAKKAR 346-4147 About QeM The Company aims to address the growing demand for affordable hardware and software security for connected devices. QeM has become a pioneering force in classical and quantum cybersecurity solutions thanks to its patented Quantum Random Number Generator, a security solution that exploits the built-in unpredictability of quantum mechanics and promises to provide enhanced protection for high-value assets and critical systems. The Company intends to target highly valued Financial Services, Healthcare, Blockchain Applications, Cloud-Based IT Security Infrastructure, Classified Government Networks and Communication Systems, Secure Device Keying (IOT, Automotive, Consumer Electronics) and Quantum Cryptography. For further information, please visit our website at or contact: Francis Bellido, Chief Executive OfficerTel: 514.956.2525Email: info@ Neither TSX Venture Exchange nor its Regulation Services Provider (as that term is defined in the policies of the TSX Venture Exchange) accepts responsibility for the adequacy or accuracy of this release. This press release may contain forward-looking statements that are subject to known and unknown risks and uncertainties that could cause actual results to vary materially from targeted results. Such risks and uncertainties include those described in the Corporation's periodic reports including the annual report or in the filings made by Quantum from time to time with securities regulatory authorities. To view the source version of this press release, please visit Sign in to access your portfolio
Yahoo
10-06-2025
- Business
- Yahoo
Quantum Random Number Generator Market Outlook 2025, with Profiles of Leading Vendors ID Quantique, InfiniQuant, KETS Quantum Security, Nu Quantum, PicoQuant, Qrypt, Quandela, QuintessenceLabs & more
The global quantum random number generator (QRNG) market is experiencing rapid growth due to increasing cybersecurity threats and advancements in quantum computing. Unlike traditional pseudo-random generators, QRNGs leverage the unpredictability of quantum mechanics for true randomness, crucial for unbreakable encryption and secure transactions across sectors like finance, healthcare, and IoT. Market advancements include SK Telecom's QRNG smartphones and innovations catering to the Internet of Things. Despite high QRNG manufacturing costs and integration challenges, progress in silicon photonics and CMOS technologies promises cost-effective solutions. Essential for industries combating sophisticated cyber threats, QRNG technology is set to redefine data security standards worldwide. Dublin, June 10, 2025 (GLOBE NEWSWIRE) -- The "Global Quantum Random Number Generator Market 2025-2040" report has been added to offering. The global quantum random number generator (QRNG) market represents one of the most rapidly expanding segments within the quantum technology ecosystem, driven by escalating cybersecurity threats and the looming reality of quantum computing capabilities that could render traditional encryption methods obsolete. Unlike conventional pseudo-random number generators (PRNGs) that rely on deterministic algorithms, QRNGs harness the fundamental unpredictability of quantum mechanical phenomena to generate truly random numbers that are mathematically impossible to predict or reproduce This quantum advantage makes QRNGs essential for creating unbreakable encryption keys, securing blockchain transactions, and protecting sensitive data across industries where security breaches could have catastrophic consequences. The QRNG market has evolved from niche applications in casinos and military sectors to encompass diverse industries including finance, telecommunications, automotive, healthcare, and Internet of Things (IoT) devices. Current generation rates have reached impressive levels, with advanced systems achieving 40-100 Gbps throughput while maintaining quantum-level security guarantees. The integration of QRNGs into consumer electronics represents a pivotal market development, exemplified by SK Telecom's deployment of QRNG-equipped smartphones and the expanding adoption across IoT devices. Several key factors are propelling market growth. The increasing sophistication of cyber threats, particularly in blockchain technology, cryptocurrencies, and decentralized finance, has created urgent demand for quantum-grade randomness. The IoT ecosystem presents transformative opportunities, with QRNGs addressing security vulnerabilities in connected devices across healthcare, automotive, and smart city applications. Healthcare digitization, including telemedicine and digital therapeutics platforms, requires quantum-level security to protect sensitive patient data and ensure regulatory compliance. Despite promising growth, the market faces challenges including high manufacturing costs compared to traditional RNG solutions, integration complexity with legacy systems, and the need for widespread market education about quantum advantages. However, ongoing advances in silicon photonics integration, CMOS compatibility, and wafer-scale manufacturing are driving cost reductions while improving performance and reliability. The Global Quantum Random Number Generator Market 2025-2040 represents the definitive strategic intelligence resource for understanding the rapidly expanding QRNG industry, covering market dynamics, technological innovations, competitive landscapes, and future growth opportunities across all major application sectors. Report contents include: Industry Structure Analysis: Complete overview of QRNG market ecosystem, key influencers, and competitive dynamics Technology Evolution Assessment: Product design innovations, performance benchmarks, and next-generation developments Standards Development Framework: NIST, ITU, and international certification requirements driving market adoption Application Market Sizing:Quantum security, gaming, mobile devices, IoT, defense, enterprise networks, and automotive sectors Technology & Strategic Analysis: QRNG Industry Overview - Market structure, growth drivers, and technological differentiators High Throughput Performance Analysis - Generation rates, throughput benchmarks, and competitive advantages Comprehensive Standards Mapping - NIST SP 800-90B compliance, ITU standards, and regulatory frameworks Entropy Source Technologies - Photonic, electron tunneling, quantum computing, radioactive decay, and vacuum fluctuation systems Form Factor Innovation - Embedded chips, USB/PCIe systems, appliances, HSMs, and Entropy-as-a-Service platforms Self-Testing QRNG Systems - Advanced validation and quality assurance methodologies Market Analysis & Forecasting: Global Market Sizing - Comprehensive forecasts from 2025-2040 with detailed segmentation analysis Regional Market Breakdown - Geographic analysis covering North America, Europe, Asia-Pacific, and emerging markets Deployment Model Analysis - Cloud-based vs. on-premises solutions market penetration Revenue Projections - Application vertical forecasts and growth trajectory analysis Advanced Technology Architecture: Source-Independent QRNG Systems - Next-generation security architectures and implementation strategies Device-Independent Frameworks - Bell test-based systems and quantum advantage validation Hybrid Integration Approaches - Classical-quantum system combinations and optimization strategies Manufacturing Technologies - Silicon photonics, InP circuits, CMOS integration, and packaging solutions Performance Benchmarking - Generation rates, quality metrics, power consumption, and reliability analysis Applications & Market Segments (15 Vertical Markets): Quantum Security & QKD Integration - Market sizing and technology convergence analysis Post-Quantum Cryptography - Algorithm requirements and implementation frameworks Gaming & Entertainment - Casino compliance, online gaming, esports security applications Mobile & Consumer Electronics - Smartphone integration, SK Telecom/Samsung case studies, IoT devices Internet of Things Security - Device-level implementation, industrial IoT, smart cities, edge AI Government & Defense - Military specifications, critical infrastructure, classified networks Enterprise Networks - Banking, blockchain, QRNG-as-a-Service, high-frequency trading Automotive Industry - V2X communications, autonomous vehicles, connected car security Healthcare & Digital Therapeutics - Telemedicine security, medical devices, clinical trials Specialized Applications - Scientific computing, cryptocurrency mining, AI/ML security Technology Roadmap & Future Outlook: Next-Generation Technologies - Quantum computer-based RNG, advanced entropy extraction Machine Learning Integration - AI-enhanced quality control and performance optimization Miniaturization Trends - System-on-chip solutions, photonic integration, cost reduction strategies Standards Evolution - International harmonization and industry-specific certifications Market Challenges - Technical barriers, scalability issues, adoption challenges Competitive Analysis: Company Profiles - 38 detailed profiles of leading QRNG manufacturers and technology providers. Leading Companies in the Quantum Random Number Generator Market Profiled in the report include: Alea Quantum Technologies EYL ID Quantique InfiniQuant KETS Quantum Security Nu Quantum PicoQuant PQ Solutions Qrate Quantum Communications Qrypt Quandela Quantinuum Quantropi QuantumCTek Quantum Computing Inc. Quantum Dice QuintessenceLabs Key Topics Covered: 1 EXECUTIVE SUMMARY1.1 The QRNG Industry: Structure and Influences1.2 Advantages1.3 QRNGs: Product Design and Technology Evolution1.4 QRNG Standards Development1.5 QRNGs Applications and Industries1.5.1 Quantum Security and QKD1.5.2 QRNGs in Casinos and Lotteries1.5.3 QRNGs in Mobile Phones and Other Mobile Devices1.5.4 QRNGs and IoT Security1.5.5 Government and Defense Applications1.5.6 QRNGs Enterprise Networks and Data Centers1.5.7 QRNGs in the Automotive Industry1.5.8 Online Games and QRNGs 2 INTRODUCTION2.1 Overview of the QRNG Industry2.2 High Throughput as a Key QRNG Differentiator 282.3 QRNG Standards2.3.1 National Institute for Standards and Technology (NIST) 332.3.2 International Telecommunications Union (ITU) 352.3.3 Other Organizations and Standards2.4 Entropy Sources2.4.1 Photon Sources and Photon Detection2.4.2 Double Quantum2.4.3 Electron Tunneling2.4.4 Multiple, External2.4.5 Not Blended2.4.6 Blended2.4.7 Quantum Computers2.4.8 Radioactive Decay2.4.9 Vacuum Fluctuations2.5 Form Factors2.5.1 Embedded QRNGs and QRNG Chips2.5.2 USB/PCIe Systems: Extension Cards and Plug-ins2.5.3 QRNG Appliances/HSMs2.5.4 Unique Form Factors2.5.5 Entropy-as-a-Service (EaaS)2.6 Self-testing QRNGs 3 MARKET ANALYSIS3.1 Global Market Size and Forecasts3.2 Market Segmentation 4 TECHNOLOGY ANALYSIS4.1 Advanced QRNG System Architecture4.1.1 Source-Independent QRNG Systems4.1.2 Device-Independent Architectures4.1.3 Hybrid Integration Approaches4.1.4 Self-Testing and Health Monitoring4.2 Manufacturing and Integration Technologies4.2.1 Silicon Photonics Integration Platform4.2.2 Indium Phosphide Photonic Circuits4.2.3 CMOS Integration and Miniaturization4.2.4 Packaging and System Integration4.3 Performance Specifications and Benchmarking4.3.1 Generation Rates and Throughput Analysis4.3.2 Quality Metrics and Statistical Testing4.3.3 Power Consumption and Efficiency4.3.4 Environmental Robustness and Reliability 5 APPLICATIONS AND MARKET SEGMENTS5.1 Introduction5.2 Major Applications for QRNG5.3 QRNG Quantum Security and Quantum Key Distribution Systems5.4 QRNGs and Post-Quantum Cryptography (PQC)5.5 QRNGs in Casinos and Lotteries5.6 Online Games and QRNG5.7 Regulatory Compliance and Fair Gaming5.8 Esports and Digital Gaming Security5.9 Mobile and Consumer Electronics5.9.1 QRNGs in Mobile Phones and Other Mobile Devices5.9.2 SK Telecom Implementation5.9.3 KT Deployment Strategy5.9.4 Consumer IoT Device Security5.9.5 Wearable Technology5.9.6 Gaming and Entertainment Systems5.10 Internet of Things and Edge Computing5.10.1 QRNGs and IoT Security5.10.2 Device-Level Security Implementation5.10.3 Industrial IoT Applications5.10.4 Smart City Infrastructure Security5.10.5 Edge AI and Machine Learning Security5.11 Government and Defense Applications5.11.1 Military and Defense Security Requirements5.11.2 Critical Infrastructure Protection5.11.3 National Security Communications5.11.4 Classified Network Security5.12 Enterprise Networks and Data Centers5.12.1 QRNGs Enterprise Networks and Data Centers5.12.1.1 Banks and Financial Institutions5.12.1.2 QRNGs and Blockchains5.12.2 QRNG-as-a-Service5.12.3 Cloud Security and Virtualization5.12.4 High-Frequency Trading Applications5.13 Automotive and Transportation Systems5.13.1 QRNGs in the Automotive Industry5.13.2 Vehicle-to-Everything Communications5.13.3 Autonomous Vehicle Security Protocols5.13.4 Connected Car Data Protection5.13.5 Electric Vehicle Infrastructure Security5.14 Healthcare and Digital Therapeutics5.14.1 Telemedicine and Remote Healthcare Security5.14.2 Medical Device Authentication and Protection5.14.3 Digital Therapeutics Platform Security5.14.4 Pharmaceutical and Clinical Trial Data Integrity5.15 Specialized Applications5.15.1 Optimization, Simulation and QRNGs5.15.2 Scientific Research and Modelling5.15.3 Cryptocurrency Mining and Blockchain Validation5.15.4 Artificial Intelligence and Machine Learning 6 TECHNOLOGY ROADMAP AND FUTURE OUTLOOK6.1 Quantum Computer-Based Random Number Generation6.2 Advanced Entropy Extraction Methods6.3 Machine Learning Enhanced Quality Control6.4 Hybrid Classical-Quantum Architectures 7 INTEGRATION AND MINIATURIZATION TRENDS7.1 System-on-Chip Solutions7.2 Quantum Photonic Integrated Circuits7.3 Wafer-Scale Manufacturing and Cost Reduction7.4 Multi-Function Security Platform Integration 8 STANDARDS AND CERTIFICATION FRAMEWORK8.1 NIST Quantum Security Standards Evolution8.2 International Standardization Bodies Coordination8.3 Industry-Specific Certification Requirements8.4 Regulatory Compliance and Market Access 9 MARKET CHALLENGES AND RISK ASSESSMENT9.1 Technical and Commercial Challenges9.2 Cost and Scalability Barriers9.3 Market Education and Adoption Challenges 10 COMPANY PROFILES (38 company profiles) For more information about this report visit About is the world's leading source for international market research reports and market data. We provide you with the latest data on international and regional markets, key industries, the top companies, new products and the latest trends. CONTACT: CONTACT: Laura Wood,Senior Press Manager press@ For E.S.T Office Hours Call 1-917-300-0470 For U.S./ CAN Toll Free Call 1-800-526-8630 For GMT Office Hours Call +353-1-416-8900Error in retrieving data Sign in to access your portfolio Error in retrieving data Error in retrieving data Error in retrieving data Error in retrieving data
Leaders
28-05-2025
- Science
- Leaders
KAUST, KACST Set New Benchmark in Data Security with Quantum Innovation
A collaborative team of scientists from King Abdullah University of Science and Technology (KAUST) and King Abdulaziz City for Science and Technology (KACST) has achieved a groundbreaking milestone in data security. The researchers have developed the world's fastest quantum random number generator (QRNG), according to international performance standards. QRNG In a statement from KAUST, the university announced that their QRNG successfully passed the rigorous randomness tests set by the U.S. National Institute of Standards and Technology (NIST). The device generates random numbers at speeds nearly 1,000 times faster than existing QRNGs. 'This marks a major breakthrough for industries that rely on robust data security,' said Professor Boon Ooi of KAUST, lead author of the study published in Optics Express . Random number generators are essential for secure applications in sectors like healthcare, finance, and defense. However, conventional systems often rely on 'pseudo-random' algorithms — complex but ultimately predictable computations. In contrast, QRNGs use quantum mechanics to generate truly random numbers, making them inherently more secure. 'Unlike traditional systems, quantum random number generators don't just appear random — they are fundamentally unpredictable due to their quantum basis,' explained Professor Ooi. The team's record-setting performance was made possible by innovative advances in both device fabrication and post-processing algorithms. Their QRNG utilizes ultra-small micro-LEDs — only a few micrometers in size — which significantly lower power consumption and enhance portability, enabling broader deployment across various technologies. Dr. Abdullah Almogbel, a contributing researcher from KACST's Microelectronics and Semiconductors Institute and Director of the Center of Excellence for Solid-State Lighting, emphasized the project's alignment with Saudi Arabia's Vision 2030. KAUST 'KACST is dedicated to advancing applied research that supports national goals, especially in positioning the Kingdom as a global leader in strategic fields like quantum-enabled technologies,' said Almogbel. 'Research like this has the potential to deliver high value across multiple industries and enhance Saudi Arabia's global competitiveness.' National Institute of Standard and Technology (NIST), an internationally recognized authority in measurement standards, sets the benchmarks used to validate the quality and integrity of random number generators. Related Topics: Higher Education: Saudi Arabia's Emergence as Global Destination Saudi Students Organize Qur'an Competitions in UK Saudi Women in the Workforce: How Does the Kingdom achieve real Empowerment? International Mining Conference to Host Global Geological Survey Leaders in Jan. Short link : Post Views: 8
Yahoo
27-05-2025
- Business
- Yahoo
RETRANSMISSION: Quantum eMotion Finalizes QRNG Hybrid Chip Design, Commences Manufacturing with TSMC
Montreal, Quebec--(Newsfile Corp. - May 27, 2025) - Quantum eMotion Corp. (TSXV: QNC) (OTCQB: QNCCF) (FSE: 34Q0) ("QeM" or the "Company") is pleased to announce the successful completion and validation of its first-generation Quantum Random Number Generator (QRNG) chip design. The 65-nm CMOS finalized design has been submitted for fabrication to Taiwan Semiconductor Manufacturing Company (TSMC), a leading global semiconductor foundry. This development marks a significant milestone for QeM. The finalized design- an advanced microsystem based on the quantum electron tunneling effect-has passed all simulations and lab testing, confirming its capability to produce purely random bits at exceptional speeds, all within a single compact chip package. Fabrication is now underway using standard TSMC CMOS process, allowing for scalability and rapid market deployment. The chip integrates critical components such as an ultra-low-noise wideband amplifier and a high-precision analog-to-digital converter, both successfully prototyped and validated by academic teams at ÉTS Montréal and the Institut Quantique at Université de Sherbrooke. Testing confirmed that the circuits preserved the integrity of quantum randomness, a fundamental requirement for cybersecurity applications. The device is designed to generate more than 1 Gbit/sec of true quantum random numbers with built-in self-diagnostic capabilities and is intended for seamless implementation on printed circuit boards with minimal external components. "With this final chip design now entering fabrication, Quantum eMotion is delivering on its vision to contribute to the next generation of quantum-secure hardware," said Francis Bellido, CEO of Quantum eMotion. "This QRNG chip, the first one based on the quantum tunneling effect and protected by four international patents, offers high performance in a fully integrated CMOS format. By embedding quantum electron tunneling into a standard CMOS chip, we are setting a new benchmark in performance, scalability, and integration. This is a decisive step toward enhancing digital security in the face of emerging quantum threats (Inside Quantum Technologies, 2024)." "We are proud to have contributed to the development and validation of this QRNG chip," added Ghyslain Gagnon, Professor at ÉTS. "Our results confirm that true quantum randomness can be reliably extracted from this architecture, making it a practical solution for high-assurance security systems." According to Verified Market Reports (IQT, 2024), the global Quantum Random Number Generator (QRNG) chip market was valued at approximately USD 150 million in 2024 and is projected to reach USD 2 billion by 2033, registering a compound annual growth rate (CAGR) of 34.5% from 2026 to 2033. About Quantum eMotion The Company's mission is to address the growing demand for affordable hardware and software security for connected devices. Thanks to its patented Quantum Random Number Generator, QeM has become a pioneering force in classical and quantum cybersecurity solutions. This security solution exploits quantum mechanics' built-in unpredictability and promises to provide enhanced protection for high-value assets and critical systems. The Company intends to target highly valued Financial Services, Healthcare, Blockchain Applications, Cloud-Based IT Security Infrastructure, Classified Government Krown Technologiess and Communication Systems, Secure Device Keying (IOT, Automotive, Consumer Electronics) and Quantum Cryptography. For further information, please visit our website at or contact: Francis Bellido, Chief Executive OfficerTel: 514.956.2525Email: info@ Neither TSX Venture Exchange nor its Regulation Services Provider (as that term is defined in the policies of the TSX Venture Exchange) accepts responsibility for the adequacy or accuracy of this release. This press release may contain forward-looking statements that are subject to known and unknown risks and uncertainties that could cause actual results to vary materially from targeted results. Such risks and uncertainties include those described in the Corporation's periodic reports including the annual report or in the filings made by Quantum from time to time with securities regulatory authorities. To view the source version of this press release, please visit
Yahoo
26-05-2025
- Business
- Yahoo
Quantum eMotion Finalizes QRNG Hybrid Chip Design, Commences Manufacturing with TSMC
Montreal, Quebec--(Newsfile Corp. - May 26, 2025) - Quantum eMotion Corp. (TSXV: QNC) (OTCQB: QNCCF) (FSE: 34Q0) ("QeM" or the "Company") is pleased to announce the successful completion and validation of its first-generation Quantum Random Number Generator (QRNG) chip design. The 65-nm CMOS finalized design has been submitted for fabrication to Taiwan Semiconductor Manufacturing Company (TSMC), a leading global semiconductor foundry. This development marks a significant milestone for QeM. The finalized design—an advanced microsystem based on the quantum electron tunneling effect—has passed all simulations and lab testing, confirming its capability to produce purely random bits at exceptional speeds, all within a single compact chip package. Fabrication is now underway using standard TSMC CMOS process, allowing for scalability and rapid market deployment. The chip integrates critical components such as an ultra-low-noise wideband amplifier and a high-precision analog-to-digital converter, both successfully prototyped and validated by academic teams at ÉTS Montréal and the Institut Quantique at Université de Sherbrooke. Testing confirmed that the circuits preserved the integrity of quantum randomness, a fundamental requirement for cybersecurity applications. The device is designed to generate more than 1 Gbit/sec of true quantum random numbers with built-in self-diagnostic capabilities and is intended for seamless implementation on printed circuit boards with minimal external components. "With this final chip design now entering fabrication, Quantum eMotion is delivering on its vision to contribute to the next generation of quantum-secure hardware," said Francis Bellido, CEO of Quantum eMotion. "This QRNG chip, the first one based on the quantum tunneling effect and protected by four international patents, offers high performance in a fully integrated CMOS format. By embedding quantum electron tunneling into a standard CMOS chip, we are setting a new benchmark in performance, scalability, and integration. This is a decisive step toward enhancing digital security in the face of emerging quantum threats (Inside Quantum Technologies, 2024)." "We are proud to have contributed to the development and validation of this QRNG chip," added Ghyslain Gagnon, Professor at ÉTS. "Our results confirm that true quantum randomness can be reliably extracted from this architecture, making it a practical solution for high-assurance security systems." According to Verified Market Reports (IQT, 2024), the global Quantum Random Number Generator (QRNG) chip market was valued at approximately USD 150 million in 2024 and is projected to reach USD 2 billion by 2033, registering a compound annual growth rate (CAGR) of 34.5% from 2026 to 2033 . About Quantum eMotion The Company's mission is to address the growing demand for affordable hardware and software security for connected devices. Thanks to its patented Quantum Random Number Generator, QeM has become a pioneering force in classical and quantum cybersecurity solutions. This security solution exploits quantum mechanics' built-in unpredictability and promises to provide enhanced protection for high-value assets and critical systems. The Company intends to target highly valued Financial Services, Healthcare, Blockchain Applications, Cloud-Based IT Security Infrastructure, Classified Government Krown Technologiess and Communication Systems, Secure Device Keying (IOT, Automotive, Consumer Electronics) and Quantum Cryptography. For further information, please visit our website at or contact: Francis Bellido, Chief Executive OfficerTel: 514.956.2525Email: info@ Neither TSX Venture Exchange nor its Regulation Services Provider (as that term is defined in the policies of the TSX Venture Exchange) accepts responsibility for the adequacy or accuracy of this release. This press release may contain forward-looking statements that are subject to known and unknown risks and uncertainties that could cause actual results to vary materially from targeted results. Such risks and uncertainties include those described in the Corporation's periodic reports including the annual report or in the filings made by Quantum from time to time with securities regulatory authorities. To view the source version of this press release, please visit Error in retrieving data Sign in to access your portfolio Error in retrieving data Error in retrieving data Error in retrieving data Error in retrieving data
