After decades of theory, quantum computing is moving toward real-world utility, with breakthroughs in error correction bringing both commercial opportunity and urgent cybersecurity risks closer to reality.

Quantum computers of the future may be closer to reality thanks to new research from Caltech and Oratomic, a Caltech-linked start-up company. Theorists and experimentalists teamed up to develop a new approach for reducing the errors that riddle today's rudimentary quantum computers.

Scientists at California Institute of Technology and startup Oratomic have developed a method to

The MarketWatch News Department was not involved in the creation of this content. Its architecture solves the 'overhead problem,' reducing the physical qubits required for breaking RSA-2048 from millions to under 100,000 Already working with the world's ...

A joint research team between the Center for Quantum Information and Quantum Biology (QIQB) at The University of Osaka and Fixstars Corporation has demonstrated one of the world's largest classical simulations of iterative quantum phase estimation (IQPE) circuits for quantum chemistry on up to 1,

IBM has recently taken a significant leap in the quantum computing arena by unveiling two new quantum processors. One of these processors is particularly noteworthy as it provides a blueprint for achieving fault-tolerant quantum computing by 2029.

Fujitsu Limited and the Center for Quantum Information and Quantum Biology at The University of Osaka today announced the development of a new technology designed to accelerate the industrial application of quantum computers in the era of early fault-tolerant quantum computing (early-FTQC).

Riverlane and Qblox have joined forces to rise to a fundamental challenge in scaling quantum computing technology. Cambridge-headquartered Riverlane’s Deltaflow quantum error correction (QEC) system has been integrated with Qblox's high-performance control hardware to enable real-time quantum error correction for the global quantum computing market.