Scientists have achieved “certified randomness” using a quantum computer, generating truly random numbers that could enhance data security. Unlike classical methods, which rely on predictable algorithms, this new approach utilizes quantum unpredictability, potentially making encryption more secure and resistant to hacking by eliminating the need for static security keys.
Researchers from JPMorganChase and several national laboratories have achieved a significant breakthrough in quantum computing by demonstrating certified randomness with a 56-qubit quantum computer. This advancement paves the way for practical applications in cryptography and secure communication, marking a crucial step toward integrating quantum technology into real-world solutions.
Artificial intelligence is transforming financial risk management through enhanced predictive analytics and real-time data processing. Innovations in AI improve risk assessment accuracy, streamline compliance, and expand financial inclusion by utilizing alternative data. As quantum computing emerges, the future of financial decision-making promises greater efficiency and inclusivity.
HP has unveiled the world’s first printer designed to protect against quantum computer attacks at the HP Amplify Conference 2025. The new HP Series 8000 printers feature quantum-resistant technology, enhancing firmware security and integrating seamlessly with existing Zero Trust architectures, addressing the growing threat of quantum computing to digital security.
Europe aims to catch up in the global quantum computing race with a new strategy to secure its position against the USA and China. While Europe has strong foundational research, it struggles with translating this into market-ready products, highlighting the need for better industrial applications and private investment.
SaxonQ has unveiled a portable quantum computer that operates at room temperature, eliminating the need for cryogenic cooling. Demonstrated at Hannover Messe 2025, it successfully executed real-time image classification and quantum chemistry simulations, showcasing its potential for industrial applications without complex infrastructure.
Sparrow Quantum has secured €21.5 million in Series A funding to enhance its photonic quantum chip technology. Led by PensionDanmark, the investment aims to accelerate R&D and production, positioning Denmark as a leader in quantum innovation and addressing the growing demand for advanced quantum hardware in Europe.
Engineers at UCL have developed a groundbreaking fabrication process for quantum computers, achieving nearly zero failure rates. This method allows precise arrangement of individual atoms, marking a significant advancement toward scalable quantum devices. The research highlights the potential of arsenic over phosphorus for creating reliable qubits in silicon.
Quantum computing is rapidly evolving from theoretical concept to practical technology. With IBM’s 1,386-qubit Condor processor and breakthroughs in error correction, industries are already benefiting from quantum optimization, simulation, and machine learning, with the software market projected to grow to $31.8 billion by 2034.
In April 2025, IBM’s Condor quantum processor reached 1,386 qubits, marking a significant leap in quantum computing. With advancements from companies like Microsoft and IonQ, practical applications are emerging across industries, from finance to telecommunications. As the market grows, businesses must prepare for the transformative impact of quantum technology.
