Latest news with #QRNG
The Hindu
16 hours ago
- Business
- The Hindu
IIT Madras signs ₹1-crore deal for tech transfer of silicon photonics-based QRNG
The Indian Institute of Technology (IIT), Madras, on Monday (August 18, 2025) signed a licensing agreement worth ₹1 crore with Indraka Quantum Technologies Pvt. Ltd. for the transfer of technology pertaining to a silicon photonics-based Quantum Random Number Generator (QRNG), developed at its Centre for Programmable Photonic Integrated Circuits and Systems. V. Kamakoti, Director, IIT Madras, and Sankhadip Das, Scientist E., Ministry of Electronics and Information Technology, among others, were present, a press release stated. The QRNG technology has critical applications in IT security, cryptographic algorithms, quantum key distribution, scientific modelling and simulations, financial transactions, blockchain, OTP generation, and gaming applications.
Hindustan Times
a day ago
- Business
- Hindustan Times
IIT Madras breakthrough: India's first high-speed Quantum RNG is here. Why is it a big deal for ‘unhackable security'
IIT Madras has indigenously developed and licensed to the industry India's first Silicon Photonics-based high-speed Quantum Random Number Generator (QRNG) in a deal worth Rs. 1 crore. The technology has been transferred to Indrarka Quantum Technologies Pvt. Ltd. for commercial deployment, marking a landmark moment in India's quantum research journey. The indigenous breakthrough strengthens India's role in quantum technology and future-proof security. What is a Silicon Photonics-Based High-Speed Quantum Random Number Generator (QRNG)? Computers and algorithms need random numbers for encryption, simulations, gaming, finance, etc. But most of the time, 'random numbers' generated by software aren't truly random, they're pseudo-random, because they come from a predictable formula. A Quantum Random Number Generator taps into the laws of quantum physics, where outcomes are truly unpredictable (like the path of a single photon). That gives you real randomness, which is far more secure. Think of QRNG as a dice that can never be loaded, hacked, or predicted except it rolls billions of times per second. India building its own high-speed version means we can power next-gen secure communications, banking, defence, and even entertainment systems, without depending on foreign tech. The 'Silicon Photonics-Based' part means this technology uses light (photons) on a chip made with silicon, similar to how regular computer chips are made. This makes it scalable, compact, and manufacturable at low cost compared to bulky quantum lab setups. And 'high-speed' means it can generate these truly random numbers extremely fast, suitable for practical, real-world applications. Why is it a big deal? India developing its own QRNG matters because most quantum security hardware today comes from abroad, which is expensive and geopolitically sensitive. In terms of scalability, silicon photonics means this isn't just a lab demo, it can be industrialised and used widely. As quantum computing grows, existing encryption methods may become obsolete. QRNGs will be part of the defence against that. What are the use cases? IT security for military and defence: Secure communications need strong keys. With QRNG, encryption keys can't be guessed, making it much harder to hack sensitive communications. Cryptographic algorithms and Quantum Key Distribution (QKD): These rely on truly random numbers for security. QRNG makes the encryption 'uncrackable' compared to pseudo-random methods. Scientific modelling and simulations: Weather models, physics simulations, drug discovery: all use randomness. Better randomness improves accuracy and reduces biases. Financial transactions, blockchain, OTP generation: Banks and blockchain rely heavily on randomness for secure PINs, OTPs, and transaction verification. QRNG makes fraud much harder. Gaming applications: Online casinos, lotteries, or even e-sports prize systems need certified randomness to be fair. QRNG ensures outcomes are unbiased and tamper-proof. By licensing the QRNG for Rs. 1 crore, IIT Madras has shown that cutting-edge research can be turned into market-ready products. More importantly, it positions India as a serious player in the global quantum security landscape and strengthens the country's technological self-reliance. Mobile Finder: iPhone 17 Pro LATEST specs, features, and price
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Business Standard
2 days ago
- Business
- Business Standard
IIT Madras licenses India's first silicon photonics-based quantum RNG
Indian Institute of Technology Madras (IIT Madras) has indigenously developed and licensed to industry India's first silicon photonics-based high-speed quantum random number generator (QRNG) in a deal worth ₹1 crore. The Technology Transfer Office (TTO), IIT Madras, signed the ₹1 crore licensing agreement on Monday with Indrarka Quantum Technologies Pvt Ltd for the commercial deployment of the silicon photonic QRNG. Developed at the Centre for Programmable Photonic Integrated Circuits and Systems (CPPICS), IIT Madras, the milestone underscores the technology's strategic value and potential to advance India's quantum innovation ecosystem. Earlier, a prototype QRNG module was delivered to DYSL-QT, Defence Research and Development Organisation (DRDO). Subsequently, an advanced version of the QRNG module was developed and successfully deployed at the Society for Electronic Transactions and Security (SETS), Chennai, for quantum security applications. The licensing agreement marks a significant step in translating cutting-edge academic research into market-ready products, reinforcing India's leadership in the global quantum technology landscape. S Krishnan, Secretary, Ministry of Electronics and Information Technology (MeitY), Government of India, congratulated the CoE-CPPICS team, saying: 'Indigenously developed, field-deployable silicon photonic-based quantum random number generator module is a pride for India.' Dinanath Soni, Director, Indrarka Quantum Technologies Pvt Ltd, said: 'We are honoured to partner with IIT Madras in bringing India's first silicon photonics-based QRNG to market. This ground-breaking technology represents a significant leap forward in quantum security solutions and exemplifies the success of the Make in India initiative. We are committed to making this indigenous innovation accessible across critical sectors, establishing India as a global leader in quantum security and advancing our nation's vision of technological self-reliance.' Manu Santhanam, Dean (IC&SR), IIT Madras, said: 'The Centre for Programmable Photonic Integrated Circuits and Systems embodies IIT Madras's vision of transforming world-class research into transformative solutions. The successful development and licensing of the silicon photonics-based QRNG is a testament to how focused R&D, backed by strong industry partnerships, can deliver technologies of national importance.'
India Today
2 days ago
- Business
- India Today
IIT Madras licenses India's first silicon photonics quantum random generator
IIT Madras has taken a major step in advancing India's quantum innovation ecosystem by developing and licencing the nation's first silicon photonics-based high-speed Quantum Random Number Generator (QRNG).The deal, valued at Rs 1 crore, has been signed with Indrarka Quantum Technologies Pvt Ltd for its commercial landmark technology was created at the Centre for Programmable Photonic Integrated Circuits and Systems (CPPICS), IIT Madras, and marks the beginning of indigenous field-deployable quantum solutions for national and global applications. The licencing agreement was formalised on August 18, 2025, through the institute's Technology Transfer INNOVATION FOR SECURE TECHNOLOGIES Highlighting the importance of the breakthrough, Professor V Kamakoti, Director, IIT Madras, said, 'Silicon photonics is an emerging area with strong interface with Quantum Technologies. Random number generation is a critical building block for secure computing and communication. I am extremely excited that the CPPICS has developed this QRNG that could be readily deployed in the market.'A prototype of the QRNG was earlier delivered to the Defence Research and Development Organisation (DRDO) and a refined version deployed at the Society for Electronic Transactions and Security (SETS Chennai) for quantum security APPLICATIONS ACROSS SECTORSThe quantum random generator has wide-ranging uses, including IT security for military and defence, cryptographic algorithms, quantum key distribution, scientific modelling, blockchain systems, financial transactions, OTP generation, and even generating truly random numbers, it addresses one of the most critical needs in encryption and secure Soni, Executive Director of Indrarka Quantum Technologies, said, 'We are honoured to partner with IIT Madras in bringing India's first Silicon Photonics-based QRNG to market. This ground-breaking technology represents a significant leap forward in quantum security solutions and exemplifies the success of the Make in India initiative.'ACADEMIC RESEARCH TRANSLATED INTO INDUSTRY SOLUTIONThe MoU signing ceremony was attended by senior officials from the Ministry of Electronics and Information Technology (MeitY), SETS Chennai, and industry partners, underscoring the significance of the the product launch, MeitY Secretary S Krishnan, IAS, congratulated the CPPICS team, describing the innovation as 'a pride for India.'Professor Manu Santhanam, Dean (IC&SR), IIT Madras, said the licencing demonstrates how focused research, combined with industry partnerships, can deliver transformative technologies of national Bijoy Krishna Das, Chief Investigator of CPPICS, added, 'I believe the field-deployable QRNG module is the first silicon photonics-based product from India — a remarkable milestone in our nation's research journey.'The achievement has been credited to faculty, scholars, and engineers at CPPICS, with packaging support from Izmo Microsystems. By moving cutting-edge academic research into industry, IIT Madras has reinforced India's leadership in quantum security technologies.- Ends
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
