Latest news with #cryptography
Associated Press
a day ago
- Business
- Associated Press
AI Cross Matrix Building the Future of Private Autonomous Finance
Hong Kong, June 28, 2025 -- ACM (AI Cross Matrix) announced June 25 that it will launch its main network on 5 July 2025, ushering in a new era of cross-chain privacy finance. As a next-generation privacy financial infrastructure, ACM combines artificial intelligence and cryptography to realise autonomous and secure financial transactions under a global compliance framework. Building the Future of Private, Autonomous Finance As data privacy and value extraction collide, AI Cross Matrix (ACM) rises as the next-gen privacy finance infrastructure—powered by advanced tech, a deflationary model, and global compliance—to lead the future of Web3 privacy. Platform Positioning: Enterprise-Grade Privacy Infrastructure ACM combines AI path obfuscation, ZKP, and Ring Signatures to deliver a multi-chain, auditable, and high-anonymity privacy protocol—serving both privacy-focused users and compliance-driven enterprises. Unique Advantage: Speed, Privacy & Long-Term Value ACM outperforms competitors with faster transactions and lower fees, while offering enhanced privacy through AI-powered path obfuscation. Its unique triple-burn mechanism enables continuous deflation, reinforcing long-term token value without revealing specific burn strategies. Roadmap Overview Q2 2025: Testnet launch with support for private ETH and BTC transactions Q3 2025: Official token launch and global community node recruitment Q4 2025: Release of Privacy Protocol 2.0 and AI Routing Optimization Engine Q1 2026: Developer platform goes live with SDK integration Q2 2026: CEX listing and ecosystem expansion initiatives begin ACM Mainnet Launch Announcement ACM's core features go live on July 5, marking a major leap toward next-gen privacy finance. Final countdown underway—get ready to join the future of cross-chain privacy. Official Channels Website: Coming soon Cross-Chain Explorer: Coming soon Twitter: TG Annoucement: TG Community: @aicrossmatrix_official Medium: YouTube: Notion Docs: Whitepaper: Contact Info: Name: Hulk Email: Send Email Organization: SocialPulse Nexus Sdn Bhd Website: Disclaimer: This press release is for informational purposes only. Information verification has been done to the best of our ability. Still, due to the speculative nature of the blockchain (cryptocurrency, NFT, mining, etc.) sector as a whole, complete accuracy cannot always be guaranteed. You are advised to conduct your own research and exercise caution. Investments in these fields are inherently risky and should be approached with due diligence. Release ID: 89163313 If you encounter any issues, discrepancies, or concerns regarding the content provided in this press release that require attention or if there is a need for a press release takedown, we kindly request that you notify us without delay at [email protected] (it is important to note that this email is the authorized channel for such matters, sending multiple emails to multiple addresses does not necessarily help expedite your request). Our responsive team will be available round-the-clock to address your concerns within 8 hours and take necessary actions to rectify any identified issues or guide you through the removal process. Ensuring accurate and reliable information is fundamental to our mission.
Globe and Mail
3 days ago
- Business
- Globe and Mail
Quantum eMotion Announces Successful Completion of Quantum Simulation Project Evaluating Sentry-Q Cryptographic Architecture
Montreal, Quebec--(Newsfile Corp. - June 26, 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, 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." 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 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. 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.
Yahoo
19-06-2025
- Business
- Yahoo
Project Eleven Raises $6M to Defend Bitcoin From the Coming Quantum Threat
Project Eleven has raised $6 million to protect bitcoin BTC from the existential threat of quantum computing, as fears mount that the network's core cryptography could one day be rendered obsolete. The round was co-led by Variant Fund and Quantonation, with participation from Castle Island Ventures alongside founding investors Nebular and Formation, according to a release. "As quantum computing capabilities advance, the threat to systems like Bitcoin is no longer theoretical, it's imminent," Alex Pruden, CEO of Project Eleven, said in a release. "This funding allows us to stay ahead of that curve, building the tools, standards, and ecosystem required to ensure digital assets remain secure in a post-quantum world,' Pruden said. Earlier this year, Project Eleven launched the Q-Day Prize, offering 1 BTC to the first team that can break Bitcoin's elliptic curve cryptography (ECC) using a quantum computer. 'We define Q-Day as the moment when quantum computers become capable of breaking the elliptic-curve cryptography that secures private keys used by Bitcoin,' said Conor Deegan, co-founder and VP of Engineering at Project Eleven in a release. Project Eleven also announced it is launching Yellowpages a post-quantum cryptographic registry where users can generate hybrid key pairs, create proofs linking them to their existing BTC addresses, and timestamp those proofs on a verifiable ledger. Yellowpages works by having users generate a new key pair using post-quantum cryptographic algorithms, such as lattice-based systems, that are resistant to the types of attacks a future quantum computer could launch. They then create a cryptographic proof linking this quantum-safe key to their existing BTC address. That proof is timestamped and stored in Yellowpages, a public registry hosted off-chain. It doesn't move funds or alter anything on the Bitcoin blockchain, but creates a verifiable paper trail of wallet ownership that could serve as a fallback if elliptic curve cryptography is ever broken. 'Preparing ahead of Q-Day means ensuring that digital assets remain secure and verifiable in a post-quantum world. With Yellowpages, we're giving users free, audited, and open-source tools to proactively establish quantum-resilient ownership today,' Deegan continued. The approach contrasts with solutions like QRAMP, a Bitcoin Improvement Proposal that mandates a hard-fork migration to quantum-safe addresses. While effective in theory, QRAMP and similar proposals face a high barrier to adoption because they would require consensus, a tall order in a governance environment known for caution. Ethereum's multi-year journey to Proof-of-Stake and Bitcoin's recent OP_RETURN debate are reminders of just how slow protocol change can be, and some analysts have warned that the slow governance process is a threat itself. This route would bypass the need for consensus, while also facilitating the mass adoption of quantum defenses. As Rick Maeda of Presto Research recently warned in an interview with CoinDesk, quantum defenses must be built linearly, not reactively, because by the time the threat is real, it's already too late. Project Eleven's latest moves suggest some in the crypto industry are taking this threat seriously while acknowledging the weakness of current methods.
Yahoo
18-06-2025
- Science
- Yahoo
A Mathematician Found a Hidden Pattern That Could Keep Your Biggest Secrets Safe
Here's what you'll learn when you read this story: Prime numbers are essential for technologies like RSA encryption, which rely on the difficulty of guessing these numerals. A new paper shows that another area of mathematics called integer partition unlocks 'infinitely many new ways' to detect them beyond divisibility. The team said that this breakthrough arrived by using decades-old methods to answer mathematical questions no one else thought to ask. Although prime numbers are a mathematical concept everyone learns about in elementary school, extremely large prime numbers form the backbone of some of the most complex technologies in modern society—especially in the realm of cryptography. But in the burgeoning era of quantum computers, which can solve problems exponentially faster than standard computers (including supercomputers), there's a chance that this kind of previously uncrackable protection could suddenly become very vulnerable. This has pushed mathematicians—including Ken Ono from the University of Virginia—to continue exploring the frontiers of prime numbers. In September of last year, Ono (along with co-authors William Craig and Jan-Willem van Ittersum) published a paper in the journal Proceedings of the National Academy of Sciences (PNAS) exploring how to find new prime numbers with a novel approach centered around what are called integer partitions. His groundbreaking work scored him recognition for the Cozzarelli Award for originality and creativity, but to understand it, we'll need to take a few steps back. A prime number (as you likely know) is an integer that is not divisible by any number other than 1 and itself. While there are technically infinite prime numbers, it's difficult to find new ones, as they appear in a number line with no pattern. (Currently, the largest known prime number is more than 41 million digits long.) But Ono and his co-authors discovered a connection between prime numbers and integer partitions, which divvy up numbers into all their possible smaller sums—the number four, for example, can be described as 4, as 3 + 1, as 2 + 2, as 2 + 1 + 1, and as 1 + 1 + 1 + 1. 'The prime numbers, the building blocks of multiplicative number theory, are the solutions of infinitely many special 'Diophantine equations' in well-studied partition functions,' the authors wrote. 'In other words, integer partitions detect the primes in infinitely many natural ways.' Named for the third-century mathematician Diophantus of Alexandria, these equations can be incredibly complex, but if the resulting answer turns out to be true, that means you're working with a prime number. This essentially devises a new way to investigate prime numbers that has never been explored before. 'This paper, as excited as I am about it, represents theoretical math that could've been done decades ago,' Ono said in a video interview accompanying a press statement. 'What I like about our theorem is that if there was a time machine, I could go back to 1950, explain what we done, and it would generate the same level of excitement […] and the experts at that time would understand what we did.' Ono is intimately familiar with the security implications of prime number research, as he serves on the advisory board for the National Security Agency (NSA). Technologies like RSA encryption rely on the difficulty of detecting prime numbers to safeguard the world's most sensitive information, so understanding prime numbers from every conceivable angle will be helpful when quantum computers make ferreting out these unfathomably large numbers easier. Speaking with Scientific American, many mathematicians say this work serves as the foundation of a new way of seeing what other mathematical connections can be made using partition functions. Prime numbers may be elementary, but they remain a fixture of our complex technological future. You Might Also Like The Do's and Don'ts of Using Painter's Tape The Best Portable BBQ Grills for Cooking Anywhere Can a Smart Watch Prolong Your Life?
Geeky Gadgets
16-06-2025
- Business
- Geeky Gadgets
Introducing Perplexity Labs a New Way to Bring Your Projects to Life Faster
What if the future of technology wasn't just about faster gadgets or smarter algorithms, but about solving the world's most complex challenges? Picture a lab where quantum computing tackles problems once deemed unsolvable, artificial intelligence transforms industries, and blockchain redefines trust in digital ecosystems. This isn't science fiction—it's the reality being forged at Perplexity Labs. As a hub for innovative innovation, it's not just pushing the boundaries of technology but reshaping how we think about progress itself. In a world where the pace of change can feel overwhelming, Perplexity Labs offers a vision of technology that is not only advanced but deeply purposeful. 'Labs can craft everything from reports and spreadsheets to dashboards and simple web apps — all backed by extensive research and analysis. Often performing 10 minutes or more of self-supervised work, Perplexity Labs use a suite of tools like deep web browsing, code execution, and chart and image creation to turn your ideas and to-do's into work that's been done.' Enovair explains the driving forces behind Perplexity Labs' new work and the methodologies that set it apart. From AI-powered healthcare solutions to quantum breakthroughs in cryptography, the lab's projects span industries and redefine what's possible. You'll also discover the tools and collaborative approaches that fuel its success, offering a glimpse into how innovation happens at the intersection of creativity and precision. Whether you're a tech enthusiast, a professional navigating a rapidly evolving landscape, or simply curious about the future, this deep dive promises to challenge your assumptions and spark your imagination. After all, the future isn't just something we wait for—it's something we build. Perplexity Labs Overview What Drives Perplexity Labs? At the heart of Perplexity Labs lies a commitment to advancing innovative technologies that redefine possibilities. The organization focuses on several key areas of innovation: Artificial Intelligence (AI): Enhancing decision-making processes and automating complex workflows to improve efficiency. Enhancing decision-making processes and automating complex workflows to improve efficiency. Machine Learning (ML): Using data-driven insights to refine predictive analytics and uncover actionable trends. Using data-driven insights to refine predictive analytics and uncover actionable trends. Quantum Computing: Transforming computational capabilities by solving problems previously considered insurmountable. Transforming computational capabilities by solving problems previously considered insurmountable. Blockchain: Strengthening security and transparency in digital ecosystems, particularly in financial and supply chain applications. By delving into these domains, Perplexity Labs aims to create solutions that are not only efficient but also fantastic in their impact. For instance, AI is being deployed to optimize operations in industries such as healthcare, where it aids in diagnostics and treatment planning, and logistics, where it streamlines supply chain management. Meanwhile, quantum computing offers the potential to transform fields like cryptography and material science by allowing unprecedented processing speeds and problem-solving capabilities. 'While Deep Research remains the fastest way to obtain comprehensive answers to in-depth questions— typically within 3 or 4 minutes — Labs is designed to invest more time (10 minutes or longer) and leverage additional tools, such as advanced file generation and mini-app creation. ' How Innovation Happens: Methodologies in Action The success of Perplexity Labs is deeply rooted in its use of advanced, adaptable methodologies designed to foster innovation. These approaches prioritize precision, scalability, and collaboration, making sure that solutions are both effective and versatile. Key strategies include: Iterative Research: Continuously refining ideas through cycles of testing, feedback, and improvement. Continuously refining ideas through cycles of testing, feedback, and improvement. Data-Driven Analysis: Employing extensive datasets to validate hypotheses and guide decision-making processes. Employing extensive datasets to validate hypotheses and guide decision-making processes. Interdisciplinary Collaboration: Bringing together experts from diverse fields to address multifaceted challenges with holistic solutions. Bringing together experts from diverse fields to address multifaceted challenges with holistic solutions. Agile Development: Streamlining project timelines while maintaining flexibility and high-quality outcomes. By integrating these methodologies, Perplexity Labs ensures that its innovations are robust, adaptable, and capable of addressing the evolving needs of various sectors. This systematic approach not only accelerates the development process but also enhances the reliability and scalability of the solutions produced. Perplexity Labs Explained Watch this video on YouTube. Take a look at other insightful guides from our broad collection that might capture your interest in Perplexity Labs. Tools Powering Innovation Perplexity Labs relies on a suite of sophisticated tools to transform ideas into tangible outcomes. These tools empower researchers to simulate, test, and refine technologies before they are deployed in real-world scenarios. Examples of these resources include: Advanced Simulation Software: Allowing the modeling of complex systems to predict outcomes and optimize designs with precision. Allowing the modeling of complex systems to predict outcomes and optimize designs with precision. State-of-the-Art Hardware: Supporting high-performance computing and large-scale data processing for innovative research. Supporting high-performance computing and large-scale data processing for innovative research. Virtual Reality (VR) Platforms: Creating immersive environments for research, training, and testing applications. These tools play a crucial role in pushing the boundaries of innovation while minimizing risks during the development phase. By using such advanced resources, Perplexity Labs ensures that its solutions are not only new but also practical and reliable. Real-World Applications and Impacts The technologies developed at Perplexity Labs have far-reaching implications across a variety of industries, addressing both operational challenges and societal needs. Some notable applications include: Healthcare: Using machine learning algorithms to predict disease outbreaks, enhance diagnostics, and personalize treatment plans. Using machine learning algorithms to predict disease outbreaks, enhance diagnostics, and personalize treatment plans. Finance: Employing blockchain technology to improve the security and transparency of financial transactions. Employing blockchain technology to improve the security and transparency of financial transactions. Energy: Advancing renewable energy research to combat climate change and promote sustainability. These innovations not only enhance efficiency and productivity but also contribute to addressing global challenges. By focusing on practical applications, Perplexity Labs demonstrates its commitment to creating technologies that drive meaningful progress and improve quality of life. Adapting to Evolving Needs Perplexity Labs recognizes that innovation is an ongoing process, requiring constant adaptation to emerging trends and challenges. Its efforts are not limited to developing new technologies but also extend to refining and enhancing existing ones. This proactive approach ensures that its contributions remain relevant and impactful in a rapidly changing world. For example, its ongoing research into renewable energy technologies highlights a dedication to addressing critical global issues such as sustainability and climate change. By staying ahead of technological advancements, Perplexity Labs continues to lead the way in creating solutions that meet the demands of the future. A Vision for the Future Perplexity Labs exemplifies the fantastic potential of technological exploration and innovation. Through its focus on advanced methodologies, innovative tools, and practical applications, it is paving the way for new solutions that address both current and future challenges. By fostering a culture of collaboration and adaptability, Perplexity Labs is not only shaping the future of technology but also redefining its role in society. Its work serves as a powerful reminder of the impact that innovation can have in driving progress and solving complex problems on a global scale. Media Credit: Enovair Filed Under: AI, Top News Latest Geeky Gadgets Deals Disclosure: Some of our articles include affiliate links. If you buy something through one of these links, Geeky Gadgets may earn an affiliate commission. Learn about our Disclosure Policy.
