IBM’s groundbreaking algorithms, ML-KEM and ML-DSA, have been adopted into the first post-quantum cryptography standards by the National Institute of Standards and Technology (NIST). This achievement signifies IBM’s leading role in safeguarding the digital world from the potential threats of quantum computing.
Spectral Capital Corporation’s Chairman, Sean Michael Brehm, recently sat down with Fast Company to discuss his vision for the future of quantum computing and the company’s Quantum Bridge Program. This program aims to accelerate the development and commercialization of quantum technologies by providing startups with funding, expertise, and global connections.
Physicists have successfully created time crystals by inflating rubidium atoms to hundreds of times their normal size using lasers. This groundbreaking achievement opens new avenues for exploring the properties of these unique crystals, which exhibit perpetual oscillation without losing energy. The researchers believe this technique could contribute to the advancement of quantum computing.
Scientists at the National Institute of Standards and Technology (NIST) have developed a prototype refrigerator that can achieve extremely low temperatures, known as the “Big Chill,” significantly faster and more efficiently than conventional methods. This technology has the potential to revolutionize quantum computing and scientific experiments, reducing costly preparation time and energy consumption by millions of dollars.
Paris-based quantum computer startup Pasqal has partnered with Saudi Arabia’s state oil giant Aramco to install the first quantum computer in the country. The 200-cubit quantum computer is scheduled for deployment in the second half of 2025 and will be installed, maintained, and operated by Pasqal.
Quantum computing is a rapidly growing field with the potential to revolutionize various industries. However, challenges such as error reduction, scaling up, and infrastructure limitations remain. Strategic approaches like optimizing for logical qubit numbers, increasing qubit density, and developing scalable manipulation methods will be crucial for success. The industry is poised for consolidation and convergence of talent, with the ultimate goal of achieving quantum advantage in various applications like finance, healthcare, and sustainability.
As artificial intelligence (AI) gains prominence, experts anticipate quantum computing will revolutionize various aspects of life, including digital security. Quantum computing poses a significant threat to current encryption methods, making them vulnerable to almost instant decryption. Businesses must proactively prepare for this transition to ensure the protection of sensitive data and online transactions. Huawei’s innovative Pura 70 Ultra demonstrates the disruption caused by quantum computing in digital security. Algorithms like Shor’s could potentially compromise secure data, leading to increased risks of identity theft and breaches. Digital signatures, the foundation of online trust, could also be easily forged, destabilizing the system of digital transactions. Man-in-the-middle attacks may become more prevalent as well. Quantum resilience involves acknowledging the potential risks and opportunities associated with quantum computing. It entails staying informed, fostering a culture of learning and adaptation, and exploring hybrid machine-learning solutions and quantum-resistant cryptographic technologies to future-proof systems. By maintaining a balanced perspective and taking a measured approach, businesses can prepare for the quantum era and harness its potential while mitigating risks.
Nvidia and Japan’s National Institute of Advanced Industrial Science and Technology (AIST) are partnering to develop a hybrid supercomputer that will integrate quantum computing capabilities. The system, expected to be available in 2025, will support various applications, from drug discovery to logistics optimization. The collaboration is part of Japan’s efforts to enhance its quantum computing capabilities.
