Genya Crossman is a lifelong learner passionate about helping people understand and use quantum computing to solve the world’s most complex problems. Crossman, an IEEE member, is a quantum strategy ...

The multi-billion-dollar investment in R&D, capital expenditure, manufacturing, partnerships, and M&A supports IBM’s goal of ...

Quantum computing has long lived in the realm of lab demos and bold PowerPoint slides, but two of the industry’s biggest players now say the first truly useful machines are less than five years away.

In the world of quantum computing, some of the world’s most important tech giants are striving to achieve a permanent advantage over classical computing, solving problems that simply cannot be solved ...

Inside IBM’s main research center rises a maze of silver towers, each 22 feet tall. Through their vented flanks, you catch glimpses of blinking lights and the shadows of wires. The machine’s ...

Team from U.S. Department of Energy-funded Quantum Science Center demonstrates quantum computers can perform material simulation that many previously believed to be beyond current quantum capabilities ...

IBM is set to receive $1 billion in funding from the U.S. government to build a quantum foundry. IBM's goal is to build a fault-tolerant quantum computer by the end of the decade. And the Trump ...

IBM is betting on hybrid systems being the future of near-term quantum computing, introducing a new computing architecture that uses both classical and quantum-specific technology to apply the ...

The chip industry is the most complex that you could imagine, and quantum computing, intrinsically, is based on some of the ...

Studying and designing novel materials is a central application of quantum mechanics. Chemists, materials scientists, and physicists focus on subtle interactions in quantum materials and to uncover ...