Core Insights - Krown Technologies and Quantum eMotion have successfully developed the Qastle Quantum-Safe Hot Wallet, marking a significant advancement in securing cryptocurrencies against current cyber threats and future quantum computing risks [1][3]. Group 1: Product Development - The Qastle Wallet integrates QeM's patented ultrafast Quantum Random Number Generator (QRNG) technology with Krown's blockchain security architecture, ensuring the generation of strong cryptographic keys resistant to both classical and quantum attacks [2]. - The wallet employs post-quantum encryption protocols, providing enhanced protection for digital assets during real-time transactions [2]. Group 2: Market Context - The global crypto wallet market was valued at USD 3.2 billion in 2024 and is projected to reach USD 33.6 billion by 2033, with a compound annual growth rate (CAGR) of nearly 30% [5]. - Hot wallets represent over half of this market, with revenues expected to grow from USD 1.5 billion in 2024 to over USD 5 billion by 2033, highlighting a significant opportunity for secure, quantum-safe solutions [5][6]. Group 3: Industry Challenges - Current blockchain networks rely on public key cryptography, which is vulnerable to quantum computing threats, necessitating a shift to quantum-safe encryption and true entropy generation to protect digital assets [4]. - Analysts warn of potential "harvest now, decrypt later" attacks, where encrypted data is captured today for future decryption when quantum computers become powerful enough [4].

Core Insights - Krown Technologies and Quantum eMotion are advancing the development of quantum-secure cryptocurrency wallets, specifically the Qastle Quantum Hot Wallet and the Excalibur Quantum Cold Wallet, to protect digital assets from quantum computing threats [1][9] Group 1: Product Development - The Excalibur Cold Wallet is designed to be compact and offers universal compatibility, utilizing QeM's Quantum Random Number Generator (QRNG) technology, which reduces monetary loss risk by up to 98% compared to traditional cold wallets [3] - The Qastle Hot Wallet aims to provide quantum-grade security for online transactions, integrating advanced post-quantum algorithms to protect against quantum attacks [4] Group 2: Strategic Partnerships - The collaboration between Krown Technologies and Quantum eMotion is enhanced by a partnership with Esposito Intellectual Enterprises, which aims to accelerate the commercialization and visibility of the quantum-secure wallets [5][6] - Esposito Intellectual Enterprises leverages its extensive network to promote the adoption of Krown's Qastle and Excalibur wallets across various sectors [6] Group 3: Industry Context - The advancements in quantum cybersecurity are crucial as recent research indicates that quantum computers could potentially break traditional encryption more easily than previously thought [9]

Core Insights - Quantum eMotion Corp. has successfully completed an internal quantum simulation project to assess its cryptographic architecture [3][4] - The project utilized IBM's Qiskit framework to simulate Grover's algorithm, focusing on the security of symmetric encryption enhanced by the company's Quantum Random Number Generator (QRNG) [4][8] - The results indicate that the integration of QRNG-generated entropy provides strong resistance to quantum attacks, supporting the company's security-by-design approach [6][8] Company Overview - Quantum eMotion Corp. specializes in quantum-secure technologies and aims to meet the growing demand for affordable security solutions for connected devices [9][10] - The company has developed a patented Quantum Random Number Generator that leverages quantum mechanics to enhance cybersecurity for high-value assets and critical systems [9][10] Project Details - The benchmarking project was conducted in collaboration with PINQ², a non-profit organization that provides access to quantum and classic computing resources [4][7] - Future development will include hybrid testbenches and real-time emulation of cryptographic architectures enhanced with QRNG under constrained computing conditions [6] Technical Findings - Simulations showed that the success rate of Grover's algorithm decreases significantly with larger key sizes, making attacks infeasible with foreseeable quantum hardware at projected real-world key sizes (e.g., 256 bits) [8] - The integration of QRNG appears to increase oracle complexity and circuit depth, suggesting a higher computational burden for potential quantum attackers [8]

Core Insights - Quantum eMotion Corp. has successfully completed an internal quantum simulation project evaluating its Sentry-Q cryptographic architecture [1] - The project utilized IBM's Qiskit framework to simulate Grover's algorithm, focusing on the complexity of attacking symmetric encryption enhanced with QeM's Quantum Random Number Generator (QRNG) [2][4] - The results indicate that the integration of QRNG-generated entropy provides strong resistance to quantum attacks, supporting the company's security-by-design approach [4] Project Details - The benchmarking project was conducted in collaboration with PINQ² and aimed to assess the effectiveness of QeM's cryptographic solutions [2] - Simulations showed that as key sizes increase, the success rate of Grover's algorithm significantly decreases, making attacks infeasible with foreseeable quantum hardware at projected key sizes (e.g., 256 bits) [8] - Future development will include hybrid testbenches and real-time emulation of cryptographic architectures enhanced with QRNG under constrained computing conditions [4] Company Overview - Quantum eMotion aims to meet the growing demand for affordable security solutions for connected devices, focusing on both classical and quantum cybersecurity [5] - The company targets various sectors, including Financial Services, Healthcare, Blockchain Applications, Cloud-Based IT Security, Government Networks, and Quantum Cryptography [6]

Core Insights - Quantum eMotion Corp. CEO Francis Bellido will participate in the IEEE International Conference on Communications (ICC 2025) as a featured expert [1][2] - The panel discussion will focus on advancements in Post-Quantum Cryptography (PQC), Quantum Key Distribution (QKD), Quantum Random Number Generation (QRNG), and hybrid quantum-safe communication approaches [2][3] - Dr. Bellido will emphasize the significance of quantum entropy for secure key generation and the advantages of QRNG over classical methods [3] Company Overview - Quantum eMotion aims to meet the increasing demand for affordable hardware and software security for connected devices [4] - The company has developed a patented Quantum Random Number Generator, positioning itself as a leader in classical and quantum cybersecurity solutions [4] - Target markets include Financial Services, Healthcare, Blockchain Applications, Cloud-Based IT Security, Classified Government Technologies, and Quantum Cryptography [5]